2023

• Zhao, C.; Ma, R.; Hou, Y.; Zhu, L.; Zou, X.; Xiong, W.; Hu, H.*; Wang, L.; Yu, H.; Wang, Y.; Zhang, G.; Yi, J.; Chen, L.; Wu, D.; Yang, T.; Li, G.; Qiu, M.*; Yan, H.*; Li, S.*; Zhang, G.*
  “ 18.1% Ternary All-Polymer Solar Cells Sequentially Processed from Hydrocarbon Solvent with Enhanced Stability “.
  Advanced Energy Materials , ( 2023 ), 13 , 2300904
  DOI: 10.1002/aenm.202300904

• Fan, Q.; Ma, R.*; Su, W.*; Zhu, Q.; Luo, Z.*; Chen, K.; Tang, Y.; Lin, F. R.; Li, Y.; Yan, H.*; Yang, C.; Jen, A. K.-Y.*; Ma, W.*
  “ A new perspective to develop regiorandom polymer acceptors with high active layer ductility, excellent device stability, and high efficiency approaching 17% “.
  Carbon Energy , ( 2023 ), 5 ,
  DOI: 10.1002/cey2.267

• Xiao, M.; Ren, X.*; Yu, H.; Yan, H.*; Chen, S.*; Sirringhaus, H.*
  “ Achieving ideal transistor characteristics in conjugated polymer semiconductors “.
  Science Advances , ( 2023 ), 9 , eadg8659
  DOI: 10.1126/sciadv.adg8659

• Chen, L.; Yi, J.; Ma, R.*; Ding, L.; Dela Peña, T. A. P.; Liu, H.; Chen, J.; Zhang, C.; Zhao, C.; Lu, W.; Wei, Q.; Zhao, B.; Hu, H.; Wu, J.; Ma, Z.; Lu, X.; Li, M.; Zhang, G.*; Li, G.*; Yan, H.*
  “ An Isomeric Solid Additive Enables High-Efficiency Polymer Solar Cells Developed Using a Benzo-Difuran-Based Donor Polymer “.
  Advanced Materials , ( 2023 ), 35 , 2301231
  DOI: 10.1002/adma.202301231

• Che, Y.; Niazi, M. R.; Chan, Q.; Ghamari, P.; Yu, T.; Ruchlin, C.; Yu, H.; Yan, H.; Ma, D.; Xiao, S. S.; Izquierdo, R.; Perepichka, D. F.*
  “ Design of Furan-Based Acceptors for Organic Photovoltaics “.
  Angewandte Chemie – International Edition , ( 2023 ), 62 , e202309003
  DOI: 10.1002/anie.202309003

• Yu, H.; Wang, Y.; Zou, X.; Han, H.; Kim, H. K.; Yao, Z.; Wang, Z.; Li, Y.; Ng, H. M.; Zhou, W.; Zhang, J.*; Chen, S.; Lu, X.; Wong, K. S.*; Zhu, Z.*; Yan, H.*; Hu, H.*
  “ Effects of Halogenation of Small-Molecule and Polymeric Acceptors for Efficient Organic Solar Cells “.
  Advanced Functional Materials , ( 2023 ), , 2300712
  DOI: 10.1002/adfm.202300712

• Wang, G.; Li, Y.; Qiu, H.; Yan, H.; Zhou, Y.*
  “ High-performance and wide relative humidity passive evaporative cooling utilizing atmospheric water “.
  Droplet , ( 2023 ), 2 , e32
  DOI: 10.1002/dro2.32

• Yu, H.; Wang, Y.; Zou, X.; Yin, J.; Shi, X.; Li, Y.; Zhao, H.; Wang, L.; Ng, H. M.; Zou, B.; Lu, X.; Wong, K. S.*; Ma, W.; Zhu, Z.*; Yan, H.*; Chen, S.*
  “ Improved photovoltaic performance and robustness of all-polymer solar cells enabled by a polyfullerene guest acceptor “.
  Nature Communications , ( 2023 ), 14 , 2323
  DOI: 10.1038/s41467-023-37738-9

• Song, J.; Li, C.*; Qiao, J.; Liu, C.; Cai, Y.; Li, Y.; Gao, J.; Jee, M. H.; Hao, X.; Woo, H. Y.; Tang, Z.; Yan, H.; Sun, Y.*
  “ Over 18% efficiency ternary all-polymer solar cells with high photocurrent and fill factor “.
  Matter , ( 2023 ), 6 , 1542-1554
  DOI: 10.1016/j.matt.2023.03.001

• Qin, Z.; Pols, M.; Qin, M.*; Zhang, J.; Yan, H.; Tao, S.*; Lu, X.*
  “ Over-18%-Efficiency Quasi-2D Ruddlesden-Popper Pb-Sn Mixed Perovskite Solar Cells by Compositional Engineering “.
  ACS Energy Letters , ( 2023 ), 8 , 3188-3195
  DOI: 10.1021/acsenergylett.3c00853

2022

• Ma, R.; Yang, T.; Xiao, Y.; Liu, T.*; Zhang, G.*; Luo, Z.; Li, G.; Lu, X.*; Yan, H.*; Tang, B.*
  “ Air-Processed Efficient Organic Solar Cells from Aromatic Hydrocarbon Solvent without Solvent Additive or Post-Treatment: Insights into Solvent Effect on Morphology “.
  ENERGY & ENVIRONMENTAL MATERIALS , ( 2022 ), 5 , 977-985
  DOI: 10.1002/eem2.12226

• Zhao, C.; Yi, J.; Wang, L.; Lu, G.; Huang, H.; Kim, H. K.; Yu, H.*; Xie, C.; You, P.; Lu, G.; Qiu, M.*; Yan, H.*; Li, S.*; Zhang, G.*
  “ An Improved Performance of All Polymer Solar Cells Enabled by Sequential Processing via Non-Halogenated Solvents “.
  Nano Energy , ( 2022 ), 104 , 107872
  DOI: 10.1016/j.nanoen.2022.107872

• Chen, Y.; Meng, H.; Ding, L.; Tang, J.; Yi, J.; Zhang, J.; Wang, Z.; Ma, R.; Li, Z.; Lyu, Li; Xu, X.; Li, R.; Peng, Q.*; Yan, H.*; Hu, H.*
  “ Asymmetric Non-Fullerene Acceptors with Branched Alkyl-Chains for Efficient Organic Solar Cells with High Open-Circuit Voltage “.
  Chemistry of Materials , ( 2022 ), 34 , 10144-10152
  DOI: 10.1021/acs.chemmater.2c02851

• Wang, Y.; Yu, H.*; Wu, X.; Zhao, D.; Zhang, S.; Zou, X.; Li, B.; Gao, D.; Li, Z.; Xia, X.; Chen, X.; Lu, X.; Yan, H.; Chueh, C.-C.; Jen, A. K.-Y.; Zhu, Z.*
  “ Boosting the Fill Factor through Sequential Deposition and Homo Hydrocarbon Solvent toward Efficient and Stable All-Polymer Solar Cells “.
  Advanced Energy Materials , ( 2022 ), 12 , 2202729
  DOI: 10.1002/aenm.202202729

• Liang, N.*; Liu, G.; Hu, D.*; Wang, K.; Li, Y.; Zhai, T.; Zhang, X.; Shuai, Z.; Yan, H.; Hou, J.; Wang, Z.*
  “ Heavy-Atom-Free Room-Temperature Phosphorescent Rylene Imide for High-Performing Organic Photovoltaics “.
  Advanced Science , ( 2022 ), 9 , 2103975
  DOI: 10.1002/advs.202103975

• Yin, J.; Shi, X.; Wang, L.; Yan, H.*; Chen, S.*
  “ High-Performance Inverted Perovskite Solar Devices Enabled by a Polyfullerene Electron Transporting Material “.
  Angewandte Chemie International Edition , ( 2022 ), 61 , e202210610
  DOI: 10.1002/anie.202210610

• Xiao, J.; Yu, H.-J.; Xie, D.-X.; Shinohara, A.; Fan, T.; Yi, J.; Lai, J. Y. L.; Shao, G.*; Yan, H.
  “ Organic photovoltaic performance and structural relationship of non-fullerene small molecule acceptors based on a tetraarylphenazine core and perylene diimide “.
  Sustainable Energy & Fuels , ( 2022 ), 7 , 294-299
  DOI: 10.1039/d2se01218a

• Ma, R.; Yan, C.; Fong, P.W.K.; Yu, J.; Liu, H.; Yin, J.; Huang, J.; Lu, X.; Yan, H.*; Li, G.*.
  “In situ and ex situ investigations on ternary strategy and co-solvent effects towards high-efficiency organic solar cells“.
  Energy & Environmental Science, (2022), 15 , 2479-2488
  DOI:10.1039/D2EE00740A

• Yi, J.; Pan, M.; Chen, L.; Chen, Y.*; Angunawela, I.C.; Luo, S.; Zhang, T.; Zeng, A.; Chen, J.; Qi, Z.; Yu, H.; Liu, W.; Lai, J.Y.; Kim, H.; Zhu, X.*; Ade, H.*; Lin, H.*; Yan, H.*.
  “A Benzo[1,2-b:4,5-b’]Difuran Based Donor Polymer Achieving High-Performance (>17%) Single-Junction Organic Solar Cells with a Fill Factor of 80.4%“.
  Advanced Energy Materials, (2022), 2201850
  DOI:10.1002/aenm.202201850

• Fan, Q.; Ma, R.*; Su, W.*; Zhu, Q.; Luo, Z.*; Chen, K.; Tang, Y.; Lin, F.R.; Li, Y.; Yan, H.*; Yang, C.; Jen, A.K.*; Ma, W.*.
  “A new perspective to develop regiorandom polymer acceptors with high active layer ductility, excellent device stability, and high efficiency approaching 17%“.
  Carbon Energy, (2022),
  DOI:10.1002/cey2.267

• Yu, H.*; Wang, Y.; Kim, H.; Wu, X.; Li, Y.; Yao, Z.; Pan, M.; Zou, X.; Zhang, J.; Chen, S.; Zhao, D.; Huang, F.; Lu, X.; Zhu, Z.; Yan, H.*.
  “A Vinylene-Linker-Based Polymer Acceptor Featuring a Coplanar and Rigid Molecular Conformation Enables High-Performance All-Polymer Solar Cells with Over 17% Efficiency“.
  Advanced Materials, (2022), 34 , 2200361
  DOI:10.1002/adma.202200361

• Ma, R.; Zhou, K.; Sun, Y.; Liu, T.*; Kan, Y.; Xiao, Y.; Dela peña, T.A.P.; Li, Y.; Zou, X.; Xing, Z.; Luo, Z.; Wong, K.; Lu, X.; Ye, L.*; Yan, H.*; Gao, K.*.
  “Achieving high efficiency and well-kept ductility in ternary all-polymer organic photovoltaic blends thanks to two well miscible donors“.
  Matter, (2022), 5 , 725-734
  DOI:10.1016/j.matt.2021.12.002

• Qi, Z.; Yu, H.*; Yu, J.; Zhao, H.; Zhao, C.; Chen, L.; Li, C.; Ma, W.; Gao, F.; Zhang, G.*; Yan, H.*.
  “Blueshifting the Absorption of a Small-Molecule Donor and Using it as the Third Component to Achieve High-Efficiency Ternary Organic Solar Cells“.
  Solar RRL, (2022), 202200386
  DOI:10.1002/solr.202200386

• Liang, J.; Pan, M.; Wang, Z.; Zhang, J.; Bai, F.; Ma, R.; Ding, L.; Chen, Y.; Li, X*.; Ade, H.*; Yan, H.*.
  “Branched Alkoxy Side Chain Enables High-Performance Non-Fullerene Acceptors with High Open-Circuit Voltage and Highly Ordered Molecular Packing“.
  Chemistry of Materials, (2022), 34 , 2059-2068
  DOI:10.1021/acs.chemmater.1c03311

• Dela peña, T.A.P.; Ma, R.; Sharma, A.; Xing, Z.; Jin, Z.; Wang, J.; Baran, D.; Weng, L.; Yan, H.; Wong, K.*.
  “Effects of Vertical Molecular Stratifications and Microstructures on the Properties of Fullerene-Free Organic Solar Cells“.
  Advanced Photonics Research, (2022), 3 , 202100339
  DOI:10.1002/adpr.202100339

• Chen, K.*; Fang, H.; Zhao, C.; Fan, Q.; Ding, L.; Yan, H.*; Ma, W.*.
  “Enhancing the Photovoltaic Performance of Chlorobenzene-Cored Unfused Electron Acceptors by Introducing S_O Noncovalent Interaction“.
  Chemical Engineering Journal, (2022), 446 , 137375
  DOI:10.1016/j.cej.2022.137375

• Zeng, L.; Ma, R.; Zhou, Z.; Liu, T.*; Xiao, Y.; Lu, X.; Xue, D.; Zhu, W.; Yan, H.*; Liu, Y.*.
  “Ester side chains engineered quinoxaline based D-A copolymers for high-efficiency all-polymer solar cells“.
  Chemical Engineering Journal, (2022), 429 , 132551
  DOI:10.1016/j.cej.2021.132551

• Luo, Z.*; Ma, R.; Yu, J.; Liu, H.; Liu, T.*; Ni, F.; Hu, J.; Zou, Y.; Zeng, A.; Su, C.; Jeng, U.; Lu, X.; Gao, F.; Yang, C.*; Yan, H.*.
  “Heteroheptacene-based acceptors with thieno[3,2-b]pyrrole yield high-performance polymer solar cells“.
  National Science Review, (2022), 9 , nwac076
  DOI:10.1093/nsr/nwac076

• Ma, R.; Yan, C.; Yu, J.; Liu, T.*; Liu, H.; Li, Y.; Chen, J.; Luo, Z.*; Tang, B.; Lu, X.; Li, G.*; Yan, H.*.
  “High-Efficiency Ternary Organic Solar Cells with a Good Figure-of-Merit Enabled by Two Low-Cost Donor Polymers“.
  ACS Energy Letters, (2022), 7 , 2547-2556
  DOI:10.1021/acsenergylett.2c01364

• Shi, Y.*; Ma, R.; Wang, X.; Liu, T.*; Li, Y.; Fu, S.; Yang, K.; Wang, Y.; Yu, C.; Jiao, L.; Wei, X.*; Fang, J.; Xue, D.; Yan, H.*.
  “Influence of Fluorine Substitution on the Photovoltaic Performance of Wide Band Gap Polymer Donors for Polymer Solar Cells“.
  ACS Applied Materials & Interfaces, (2022), 14 , 5740-5749
  DOI:10.1021/acsami.1c23196

• Luo, Z.*; Liu, T.*; Oh, J.; Ma, R.; Miao, J.; Ni, F.; Zhang, G.*; Sun, R.; Zhang, C.; Chen, Z.; Zou, Y.; Min, J.; Yang, C.*; Yan, H.; Yang, C.*.
  “Isomerization of Asymmetric Ladder-Type Heteroheptacene-Based Small-Molecule Acceptors Improving Molecular Packing: Efficient Nonfullerene Organic Solar Cells with Excellent Fill Factors“.
  Advanced Functional Materials, (2022), 2203200
  DOI:10.1002/adfm.202203200

• Yu, K.; Pan, M.; Xu, X.; Zhang, J.; Wang, Z.; Cui, Y.; Huang, Y.; Liao, Y.; Yan, H.; Hu, H.*.
  “Isomerization of Noncovalently Conformational Lock in Nonfused Electron Acceptor toward Efficient Organic Solar Cells“.
  ACS Applied Energy Materials, (2022), 5 , 10224-10232
  DOI:10.1021/acsaem.2c01945

• Kim, H.; Yu, H.*; Pan, M.; Shi, X.; Zhao, H.; Qi, Z.; Liu, W.; Ma, W.; Yan, H.*; Chen, S.*.
  “Linker Unit Modulation of Polymer Acceptors Enables Highly Efficient Air-Processed All-Polymer Solar Cells“.
  Advanced Science, (2022), 2202223
  DOI:10.1002/advs.202202223

• Chen, W.; Zhu, Y.; Xiu, J.; Chen, G.; Liang, H.; Liu, S.; Xue, H.; Birgersson, E.; Ho, J.; Qin, X.; Lin, J.; Ma, R.; Liu, T.; He, Y.; Ng, A.M.; Guo, X.; He, Z.*; Yan, H.; Djuri_i_, A.B.*; Hou, Y*.
  “Monolithic perovskite/organic tandem solar cells with 23.6% efficiency enabled by reduced voltage losses and optimized interconnecting layer“.
  Nature Energy, (2022), 229-237
  DOI:10.1038/s41560-021-00966-8

• Luo, S.; Bai, F.; Zhang, J.*; Zhao, H.; Angunawela, I.; Zou, X.; Li, X.; Luo, Z.; Feng, K.; Yu, H.; Wong, K.; Ade, H.; Ma, W.*; Yan, H.*.
  “Optimizing spectral and morphological match of nonfullerene acceptors toward efficient indoor organic photovoltaics with enhanced light source adaptability“.
  Nano Energy, (2022), 107281
  DOI:10.1016/j.nanoen.2022.107281

• Shang, A.; Luo, S.; Zhang, J.*; Zhao, H.; Xia, X.; Pan, M.; Li, C.; Chen, Y.; Yi, J.; Lu, X.; Ma, W.; Yan, H.*; Hu, H.*.
  “Over 18% binary organic solar cells enabled by isomerization of non-fullerene acceptors with alkylthiophene side chains“.
  Science China Chemistry, (2022), 65 , 1758-1766
  DOI:10.1007/s11426-022-1290-y

• Zhao, T.*; Hu, X.; Ma, R.; Dong, F.; Liu, T.*; Li, L.; Yan, H.; Xu, Y.; Liu, W.; Zou, B.; Tang, B.*.
  “Photovoltaic polymer Photosensitizer-Doped Nano-Therapeutic reagent for in vivo enhanced bioimaging guided photodynamic therapy“.
  Chemical Engineering Journal, (2022), 441 , 135983
  DOI:10.1016/j.cej.2022.135983

• Xu, X.; Yu, L.; Meng, H.; Dai, L.*; Yan, H.; Li, R.; Peng, Q.*.
  “Polymer solar cells with 18.74% efficiency: from bulk heterojunction to interdigitated bulk heterojunction“.
  Advanced Functional Materials, (2022), 32 , 2108797
  DOI:10.1002/adfm.202108797

• Zhang, J.; Luo, S.; Zhao, H.; Xu, X.; Zou, X.; Shang, A.; Liang, J.; Bai, F.; Chen, Y.; Wong, K.; Ma, Z.; Ma, W.; Hu, H.*; Chen, Y.*; Yan, H.*.
  “Precise Control of Selenium Functionalization in Non-Fullerene Acceptors Enabling High-Efficiency Organic Solar Cells“.
  Angewandte Chemie-International Edition, (2022), 61 , e202206930
  DOI:10.1002/anie.202206930

• Cai, G.; Chen, Z.; Xia, X.; Li, Y.; Wang, J.; Liu, H.; Sun, P.; Li, C.; Ma, R.; Zhou, Y.; Chi, W.*; Zhang, J.*; Zhu, H.; Xu, J.; Yan, H.; Zhan, X.; Lu, X.*.
  “Pushing the Efficiency of High Open-Circuit Voltage Binary Organic Solar Cells by Vertical Morphology Tuning“.
  Advanced Science, (2022), 9 , 2200578
  DOI:10.1002/advs.202200578

• Chen, Y.; Chang, Y.; Ma, R.; Liu, H.; Zhang, J.; Liu, T.; Qi, Z.; Yi, J.; Yu, K.; Lu, X.; Hu, H.*; Yan, H.*.
  “Side-chain engineering with chalcogen-containing heterocycles on non-fullerene acceptors for efficient organic solar cells“.
  Chemical Engineering Journal, (2022), 441 , 135998
  DOI:10.1016/j.cej.2022.135998

• Sun, Y.; Ma, R.; Kan, Y.*; Liu, T.; Zhou, K.; Liu, P.; Fang, J.; Chen, Y.; Ye, L.; Ma, C.; Yan, H.; Gao, K.*.
  “Simultaneously Enhanced Efficiency and Mechanical Durability in Ternary Solar Cells Enabled by Low-cost Incompletely Separated Fullerenes“.
  Macromolecular Rapid Communications, (2022), 2200139
  DOI:10.1002/marc.202200139

• Zou, X.; Yu, H.; Qi, Z.; Liu, B.; Xing, Z.; Chan, C.C.; Chow, P.C.; Pan, D.*; Yan, H.*; Wong, K.*.
  “Slow Hole Transfer Kinetics Lead to High Blend Photoluminescence of Unfused A-D-A’-D-A-Type Acceptors with Unfavorable Highest Occupied Molecular Orbitals Offset“.
  Solar RRL, (2022), 2200169
  DOI:10.1002/solr.202200169

• Zhang, C.; Mahadevan, S.; Yuan, J.; Ho, J.K.W.; Gao, Y.; Liu, W.; Zhong, H.; Yan, H.; Zou, Y.; Tsang, S.; So, S.*.
  “Unraveling Urbach Tail Effects in High-Performance Organic Photovoltaics: Dynamic vs Static Disorder“.
  ACS Energy Letters, (2022), 7 , 1971-1979
  DOI:10.1021/acsenergylett.2c00816

• Wu, X.; Zhang, J.; Qin, M.; Liu, K.; Lv, Z.; Qin, Z.; Guo, X.; Li, Y.; Xu, J.; Li, G.; Yan, H.; Lu, X.*.
  “ZnO electron transporting layer engineering realized over 20% efficiency and over 1.28 V open-circuit voltage in all-inorganic perovskite solar cells“.
  EcoMat, (2022), e12192
  DOI:10.1002/eom2.12192

2021

• Liu, T.*; Yang, T.; Ma, R.; Zhan, L.; Luo, Z.; Zhang, G.; Li, Y.; Gao, K.; Xiao, Y.; Yu, J.; Zou, X.; Sun, H.; Zhang, M.; Dela peña, T.A.P.; Xing, Z.; Liu, H.; Li, X.; Li, G.; Huang, J.; Duan, C.; Wong, K.; Lu, X.; Guo, X.; Gao, F.; Chen, H.*; Huang, F.*; Li, Y.; Li, Y.; Cao, Y.; Tang, B.*; Yan, H.*
  “ 16% efficiency all-polymer organic solar cells enabled by a finely tuned morphology via the design of ternary blend “.
  Joule , ( 2021 ), 5 , 914-930
  DOI: 10.1016/j.joule.2021.02.002

• Zeng, A.; Ma, X.; Pan, M.; Chen, Y.*; Ma, R.; Zhao, H.; Zhang, J.; Kim, H.; Shang, A.; Luo, S.; Angunawela, I.C.; Chang, Y.; Qi, Z.; Sun, H.; Lai, J.Y.; Ade, H.; Ma, W.; Zhang, F.*; Yan, H.*
  “ A Chlorinated Donor Polymer Achieving High-Performance Organic Solar Cells with a Wide Range of Polymer Molecular Weight “.
  Advanced Functional Materials , ( 2021 ), , 2102413
  DOI: 10.1002/adfm.202102413

• Huang, J.; Yang, J.; Sun, H.*; Feng, K.; Liao, Q.; Li, B.; Yan, H.*; Guo, X.*
  “ A Cost-Effective D-A-D Type Hole-Transport Material Enabling 20% Efficiency Inverted Perovskite Solar Cells “.
  Chinese Journal of Chemistry , ( 2021 ), 39 , 1545-1552
  DOI: 10.1002/cjoc.202100022

• Yu, H.; Luo, S.; Sun, R.; Angunawela, I.; Qi, Z.; Peng, Z.; Zhou, W.; Han, H.; Rong, W.; Pan, M.; Cheung, M.A.; Zhao, D.; Zhang, J.*; Ade, H.*; Min, J.*; Yan, H.*
  “ A Difluoro-Monobromo End Group Enables High-Performance Polymer Acceptor and Efficient All-Polymer Solar Cells Processable with Green Solvent under Ambient Condition “.
  Advanced Functional Materials , ( 2021 ), 31 , 2100791
  DOI: 10.1002/adfm.202100791

• Bai, F.; Zhang, J.; Zeng, A.; Zhao, H.; Duan, K.; Yu, H.; Cheng, K.; Chai, G.; Chen, Y.; Liang, J.; Ma, W.*; Yan, H.*
  “ A highly crystalline non-fullerene acceptor enabling efficient indoor organic photovoltaics with high EQE and fill factor “.
  Joule , ( 2021 ), 5 , 1231-1245
  DOI: 10.1016/j.joule.2021.03.020

• Huang, J.; Yang, J.; Li, D.; Sun, H.; Su, M.; Ji, X.; Li, B.; Li, B.; Liao, Q.; Han, D.; Yan, H.*; Niu, L.*; Wang, D.*; Guo, X.*
  “ A low-cost and green-solvent-processable hole-transport material enabled by a traditional bidentate ligand for highly efficient inverted perovskite solar cells “.
  Journal of Materials Chemistry C , ( 2021 ), 9 , 8930-8938
  DOI: 10.1039/d1tc02053f

• Lian, H.; Pan, M.; Han, J.; Cheng, X.; Liang, J.; Hua, W.; Qu, Y.; Wu, Y.; Dong, Q.*; Wei, B.*; Yan, H.*; Wong, W.*
  “ A MoSe2 Quantum Dot Modified Hole Extraction Layer Enables Binary Organic Solar Cells With Improved Efficiency And Stability “.
  Journal of Materials Chemistry A , ( 2021 ), 9 , 16500-16509
  DOI: 10.1039/d1ta04030h

• Luo, Z.; Ma, R.; Xiao, Y.; Ni, F.; Liu, T.*; Zhan, Q.; Sun, H.; Chen, Y.; Zou, Y.; Lu, X.; Yan, H*.; Yang, C.*
  “ A Pyrrole-Fused Asymmetrical Electron Acceptor for Polymer Solar Cells with Approaching 16% Efficiency “.
  Small Structures , ( 2021 ), 2 , 2000052
  DOI: 10.1002/sstr.202000052

• Cui, Y.; Hong, L.; Zhang, T.; Meng, H.; Yan, H.; Gao, F.*; Hou, J.*
  “ Accurate photovoltaic measurement of organic cells for indoor applications “.
  Joule , ( 2021 ), 5 , 1016-1023
  DOI: 10.1016/j.joule.2021.03.029

• Ma, R.; Tao, Y.; Chen, Y.; Liu, T.*; Luo, Z.; Guo, Y.*; Xiao, Y.; Fang, J.; Zhang, G.; Li, X.; Guo, X.; Yi, Y.; Zhang, M.*; Lu, X.; Li, Y.; Yan, H.*
  “ Achieving 16.68% efficiency ternary as-cast organic solar cells “.
  Science China Chemistry , ( 2021 ), 64 , 581-589
  DOI: 10.1007/s11426-020-9912-0

• Chang, Y.; Zhang, J.*; Chen, Y.; Chai, G.*; Xu, X.; Yu, L.; Ma, R.; Yu, H.; Liu, T.; Liu, P.*; Peng, Q.; Yan, H.*
  “ Achieving Efficient Ternary Organic Solar Cells Using Structurally Similar Non-Fullerene Acceptors with Varying Flanking Side Chains “.
  Advanced Energy Materials , ( 2021 ), 11 , 2100079
  DOI: 10.1002/aenm.202100079

• Sun, R.; Wang, W.; Yu, H.*; Chen, Z.; Xia, X.; Shen, H.; Guo, J.; Shi, M.; Zheng, Y.; Wu, Y.; Yang, W.; Wang, T.; Wu, Q.; Yang, Y.; Lu, X.; Xia, J.; Brabec, C.J.; Yan, H.*; Li, Y.; Min, J.*
  “ Achieving over 17% efficiency of ternary all-polymer solar cells with two well-compatible polymer acceptors “.
  Joule , ( 2021 ), 5 , 1548-1565
  DOI: 10.1016/j.joule.2021.04.007

• Hai, J.; Luo, S.; Yu, H.; Chen, H.; Lu, Z.*; Li, L.; Zou, Y.*; Yan, H.*
  “ Achieving ultra-narrow bandgap non-halogenated non-fullerene acceptors via vinylene π-bridges for efficient organic solar cells “.
  Materials Advances , ( 2021 ), 2 , 2132-2140
  DOI: 10.1039/D0MA01017K

• Ma, R.; Yang, T.; Xiao, Y.; Liu, T.*; Zhang, G.*; Luo, Z.; Li, G.; Lu, X.*; Yan, H.*; Tang, B.*
  “ Air-Processed Efficient Organic Solar Cells from Aromatic Hydrocarbon Solvent without Solvent Additive or Post-Treatment: Insights into Solvent Effect on Morphology “.
  Energy & Environmental Materials , ( 2021 ), ,
  DOI: 10.1002/eem2.12226

• Chen, Y.; Liu, T.*; Ma, L.*; Xue, W.; Ma, R.*; Zhang, J.; Ma, C.; Kim, H.; Yu, H.; Bai, F.; Wong, K.; Ma, W.*; Yan, H.*; Zou, Y.*
  “ Alkoxy substitution on IDT-Series and Y-Series non-fullerene acceptors yielding highly efficient organic solar cells “.
  Journal of Materials Chemistry A , ( 2021 ), 9 , 7481-7490
  DOI: 10.1039/D0TA10953C

• Ma, R.; Yu, J.; Liu, T.*; Zhang, G.*; Xiao, Y.; Luo, Z.; Chai, G.; Chen, Y.; Fan, Q.; Su, W.; Li, G.; Wang, E.; Lu, X.; Gao, F.*; Tang, B.*; Yan, H.*
  “ All-polymer solar cells with over 16% efficiency and enhanced stability enabled by compatible solvent and polymer additives “.
  Aggregate , ( 2021 ), ,
  DOI: 10.1002/agt2.58

• Ma, X.; Zeng, A.; Gao, J.; Hu, Z.; Xu, C.; Son, J.; Jeong, S.; Zhang, C.; Li, M.; Wang, K.; Yan, H.; Ma, Z.; Wang, Y.; Woo, H.*; Zhang, F.*
  “ Approaching 18% Efficiency Of Ternary Organic Photovoltaics With Wide Bandgap Polymer Donor And Well Compatible Y6:Y6-1O As Acceptor “.
  National Science Review , ( 2020 ), 8 , nwaa305
  DOI: 10.1093/nsr/nwaa305

• Chen, Y.; Bai, F.; Peng, Z.; Zhu, L.; Zhang, J.; Zou, X.; Qin, Y.; Kim, H.; Yuan, J.; Ma, L.; Zhang, J.; Yu, H.; Chow, P.C.; Huang, F.; Zou, Y.; Ade, H.; Liu, F.*; Yan, H.*
  “ Asymmetric Alkoxy and Alkyl Substitution on Nonfullerene Acceptors Enabling High-Performance Organic Solar Cells “.
  Advanced Energy Materials , ( 2021 ), 11 , 2003141
  DOI: 10.1002/aenm.202003141

• Liu, B.; Rocca, D.; Yan, H.; Pan, D.*
  “ Beyond Conformational Control: Effects of Noncovalent Interactions on Molecular Electronic Properties of Conjugated Polymers “.
  JACS Au , ( 2021 ), 1 , 2182-2187
  DOI: 10.1021/jacsau.1c00284

• Jin, L.; Ma, R.; Liu, H.; Xu, W.; Luo, Z.; Liu, T.*; Su, W.; Li, Y.; Lu, R.*; Lu, X.*; Yan, H.; Tang, B.; Yang, T.*
  “ Boosting Highly Efficient Hydrocarbon Solvent-Processed All-Polymer-Based Organic Solar Cells by Modulating Thin-Film Morphology “.
  ACS Applied Materials and Interfaces , ( 2021 ), 13 , 34301-34307
  DOI: 10.1021/acsami.1c07946

• Ding, S.; Ma, R.; Yang, T.; Zhang, G.*; Yin, J.; Luo, Z.; Chen, K.*; Miao, Z.*; Liu, T.*; Yan, H.; Xue, D.*
  “ Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method “.
  ACS Applied Materials & Interfaces , ( 2021 ), 13 , 51078-51085
  DOI: 10.1021/acsami.1c16550

• Chow, P.C.*; Chan, C.C.; Ma, C.; Zou, X.; Yan, H.; Wong, K.
  “ Factors That Prevent Spin-Triplet Recombination in Non-fullerene Organic Photovoltaics “.
  Journal of Physical Chemistry Letters , ( 2021 ), 12 , 5045-5051
  DOI: 10.1021/acs.jpclett.1c01214

• Chai, G.; Chang, Y.; Zhang, J.*; Xu, X.; Yu, L.; Zou, X.; Li, X.; Chen, Y.; Luo, S.; Liu, B.; Bai, F.; Luo, Z.*; Yu, H.; Liang, J.; Liu, T.; Wong, K.; Zhou, H.*; Peng, Q.*; Yan, H.*
  “ Fine-tuning of side-chain orientations on nonfullerene acceptors enables organic solar cells with 17.7% efficiency “.
  Energy & Environmental Science , ( 2021 ), 14 , 3469-3479
  DOI: 10.1039/D0EE03506H

• Yu, H.; Qi, Z.; Yu, J.; Xiao, Y.; Sun, R.; Luo, Z.*; Cheung, M.A.; Zhang, J.; Sun, H.; Zhou, W.; Chen, S.; Guo, X.; Lu, X.*; Gao, F.*; Min, J.*; Yan, H.*
  “ Fluorinated End Group Enables High-Performance All-Polymer Solar Cells with Near-Infrared Absorption and Enhanced Device Efficiency over 14% “.
  Advanced Energy Materials , ( 2021 ), 11 , 2003171
  DOI: 10.1002/aenm.202003171

• Liang, N.*; Liu, G.; Hu, D*.; Wang, K.; Li, Y.; Zhai, T.; Zhang, X.; Shuai, Z.; Yan, H.; Hou, J.; Wang, Z.*
  “ Heavy-Atom-Free Room-Temperature Phosphorescent Rylene Imide for High-Performing Organic Photovoltaics “.
  Advanced Science , ( 2021 ), 9 , 2103975
  DOI: 10.1002/advs.202103975

• Su, N.; Ma, R.; Li, G.; Liu, T.*; Feng, L.; Lin, C.; Chen, J.*; Song, J.*; Xiao, Y.; Qu, J.; Lu, X.; Sangwan, V.K.*; Hersam, M.C.*; Yan, H.*; Facchetti, A.*; Marks, T.J.*
  “ High-Efficiency All-Polymer Solar Cells with Poly-Small-Molecule Acceptors Having π-Extended Units with Broad Near-IR Absorption “.
  ACS Energy Letters , ( 2021 ), 6 , 728-738
  DOI: 10.1021/acsenergylett.1c00009

• Zhang, Y.; Ma, R.; Wang, Y.; Wang, Y.; Liu, T.*; Xiao, Y.; Cho, Y.; Luo, Z.; Lu, X.; Zhao, L.*; Yuan, Z.; Yang, C.; Yan, H.; Chen, Y.*
  “ Highly crystalline acceptor materials based on benzodithiophene with different amount of fluorine substitution on alkoxyphenyl conjugated side chains for organic photovoltaics “.
  Materials Reports: Energy , ( 2021 ), , 100059
  DOI: 10.1016/j.matre.2021.100059

• Saeed, M.A.; Kim, S.; Kim, H.; Liang, J.; Woo, H.; Kim, T.; Yan, H.*; Shim, J.*
  “ Indoor Organic Photovoltaics: Optimal Cell Design Principles with Synergistic Parasitic Resistance and Optical Modulation Effect “.
  Advanced Energy Materials , ( 2021 ), , 2003103
  DOI: 10.1002/aenm.202003103

• Li, X.; Luo, S.; Sun, H.; Sung, H.H.; Yu, H.; Liu, T.*; Xiao, Y.; Bai, F.; Pan, M.; Lu, X.*; Williams, I.D.; Guo, X.*; Li, Y.*; Yan, H.*
  “ Medium Band-gap Non-fullerene Acceptors Based On A Benzothiophene Donor Moiety Enabling High-performance Indoor Organic Photovoltaics “.
  Energy & Environmental Science , ( 2021 ), 14 , 4555-4563
  DOI: 10.1039/D1EE00687H

• Li, C.; Zhou, J.; Song, J.; Xu, J.; Zhang, H.; Zhang, X.; Guo, J.; Zhu, L.; Wei, D.; Han, G.; Min, J.; Zhang, Y.; Xie, Z.; Yi, Y.; Yan, H.; Gao, F.; Liu, F.*; Sun, Y.*
  “ Non-fullerene acceptors with branched side chains and improved molecular packing to exceed 18% efficiency in organic solar cells “.
  Nature Energy , ( 2021 ), 6 , 605-613
  DOI: 10.1038/s41560-021-00820-x

• Zou, X.; Ma, C.; Chan, C.C.; Zhang, J.; Li, Y.; Shang, A.; Wang, Z.; Arunagiri, L.; Qi, Z.; Ade, H.; Yan, H.*; Wong, K.*; Chow, P.C.*
  “ Optically Probing Field-Dependent Charge Dynamics in Non-Fullerene Organic Photovoltaics with Small Interfacial Energy Offsets “.
  Journal of Physical Chemistry C , ( 2021 ), 125 , 1714-1722
  DOI: 10.1021/acs.jpcc.0c09663

• Jiang, K.; Zhang, J.; Peng, Z.; Lin, F.; Wu, S.; Li, Z.; Chen, Y.; Yan, H.*; Ade, H.*; Zhu, Z.*; Jen, A.K.*
  “ Pseudo-bilayer architecture enables high-performance organic solar cells with enhanced exciton diffusion length “.
  Nature Communications , ( 2021 ), 12 , 468
  DOI: 10.1038/s41467-020-20791-z

• Ma, R.; Zeng, M.; Li, Y.; Liu, T.*; Luo, Z.; Xu, Y.; Li, P.; Zheng, N.; Li, J.; Li, Y.*; Chen, R.; Hou, J.; Huang, F.*; Yan, H.*
  “ Rational Anode Engineering Enables Progresses for Different Types of Organic Solar Cells “.
  Advanced Energy Materials , ( 2021 ), 11 , 2100492
  DOI: 10.1002/aenm.202100492

• Yu, H.; Pan, M.; Sun, R.; Agunawela, I.; Zhang, J.*; Li, Y.; Qi, Z.; Han, H.; Zou, X.; Zhou, W.; Chen, S.; Lai, J.Y.; Luo, S.; Luo, Z.*; Zhao, D.; Lu, X.; Ade, H.; Huang, F.; Min, J.*; Yan, H.*
  “ Regio-Regular Polymer Acceptors Enabled by Determined Fluorination on End Groups for All-Polymer Solar Cells with 15.2 % Efficiency “.
  Angewandte Chemie – International Edition , ( 2021 ), 60 , 10137-10146
  DOI: 10.1002/anie.202016284

• Yu, H.; Pan, M.; Sun, R.; Agunawela, I.; Zhang, J.*; Li, Y.; Qi, Z.; Han, H.; Zou, X.; Zhou, W.; Chen, S.; Lai, J.Y.; Luo, S.; Luo, Z.*; Zhao, D.; Lu, X.; Ade, H.; Huang, F.; Min, J.*; Yan, H.*
  “ Regio-Regular Polymer Acceptors Enabled by Determined Fluorination on End Groups for All-Polymer Solar Cells with 15.2% Efficiency “.
  Angewandte Chemie , ( 2021 ), 133 , 10225-10234
  DOI: 10.1002/ange.202016284

• Chen, Y.; Ma, R.; Liu, T.*; Xiao, Y.; Kim, H.; Zhang, J.*; Ma, C.; Sun, H.; Bai, F.; Guo, X.; Wong, K.; Lu, X.*; Yan, H.*
  “ Side-Chain Engineering on Y-Series Acceptors with Chlorinated End Groups Enables High-Performance Organic Solar Cells “.
  Advanced Energy Materials , ( 2021 ), , 2003777
  DOI: 10.1002/aenm.202003777

• Liu, X.; Ma, R.; Wang, Y.; Du, S.; Tong, J.; Shi, X.; Li, J.*; Bao, X.*; Xia, Y.; Liu, T.*; Yan, H.
  “ Significantly Boosting Efficiency of Polymer Solar Cells by Employing a Nontoxic Halogen-Free Additive “.
  ACS Applied Materials and Interfaces , ( 2021 ), 13 , 11117-11124
  DOI: 10.1021/acsami.0c22014

• Li, Y.; Lin, C.; Wu, Z.; Chen, Z.; Chi, C.; Cao, F.; Mei, D.; Yan, H.; Tso, C.; Chao, C.Y.; Huang, B.*
  “ Solution-Processed All-Ceramic Plasmonic Metamaterials for Efficient Solar-Thermal Conversion over 100-727 °C “.
  Advanced Materials , ( 2021 ), 33 , 2005074
  DOI: 10.1002/adma.202005074

• Chen, S.; Meng, D.*; Huang, J.; Liang, N; Li, Y.; Liu, F.; Yan, H.*; Wang, Z.*
  “ Symmetry-induced Orderly Assembly Achieving High-performance Perylene Diimide-based Nonfullerene Organic Solar Cells “.
  CCS Chemistry , ( 2021 ), 3 , 78-84
  DOI: 10.31635/ccschem.021.202000538

• Du, B.; Yi, J.; Yan, H.; Wang, T.*
  “ Temperature Induced Aggregation of Organic Semiconductors “.
  Chemistry – A European Journal , ( 2021 ), 27 , 2908-2919
  DOI: 10.1002/chem.202002559

• Dela peña, T.A.P.; Khan, J.I.; Chaturvedi, N.; Ma, R.; Xing, Z.; Gorenflot, J.; Sharma, A.; Ng, F.; Baran, D.; Yan, H.; Laquai, F.; Wong, K.*
  “ Understanding the Charge Transfer State and Energy Loss Trade-offs in Non-Fullerene-Based Organic Solar Cells “.
  ACS Energy Letters , ( 2021 ), 6 , 3408-3416
  DOI: 10.1021/acsenergylett.1c01574

• Ma, C.; Chan, C.C.; Zou, X.; Yu, H.; Zhang, J.; Yan, H.; Wong, K.*; Chow, P.C.*
  “ Unraveling the Temperature Dependence of Exciton Dissociation and Free Charge Generation in Nonfullerene Organic Solar Cells “.
  Solar RRL , ( 2021 ), 5 , 2000789
  DOI: 10.1002/solr.202000789

• Li, Q.; Gong, J.; Li, Y.; Zhang, R.; Wang, H.; Zhang, J.; Yan, H.; Lam, W. Y.; Sung, H. Y.; Williams, I.D.; Kwok, R. T. K.; Li, M..; Wang, J.*; Tang, B.*
  “ Unusual light-driven amplification through unexpected regioselective photogeneration of five-membered azaheterocyclic AIEgen “.
  Chemical Science , ( 2021 ), 12 , 709-717
  DOI: 10.1039/D0SC04725B

• Hai, J.; Zhao, W.; Luo, S.; Yu, H.; Chen, H.; Lu, Z.; Li, L.*; Zou, Y.*; Yan, H.*
  “ Vinylene π-bridge: a simple building block for ultra-narrow bandgap nonfullerene acceptors enable 14.2% efficiency in binary organic solar cells “.
  Dyes and Pigments , ( 2021 ), 188 , 109171
  DOI: 10.1016/j.dyepig.2021.109171

2020

• Fan, Q.; Ma, R.; Liu, T.*; Su, W.; Peng, W.; Zhang, M.; Wang, Z.; Wen, X.; Cong, Z.; Luo, Z.; Huo, L.; Liu, F.; Zhu, W.*; Yu, D.; Yan, H.*; Wang, E.*
  “ 10.13% Efficiency All-Polymer Solar Cells Enabled by Improving the Optical Absorption of Polymer Acceptors “.
  Solar RRL , ( 2020 ), , 202000142
  DOI: 10.1002/solr.202000142

• Hu, D.; Yang, Q.; Che, H.; Wobbern, F.; Le C., Vincent M.; Singh, R.; Liu, T.; Ma, R.; Tang, H.; Koster, L.J.A.; Duan, T.; Yan, H.; Kan, Z.*; Xiao, Z.*; Lu, S.*
  “ 15.34% Efficiency All-Small-Molecule Organic Solar Cells with Improved Fill Factor Enabled by A Fullerene Additive “.
  Energy & Environmental Science , ( 2020 ), 13 , 2134-2141
  DOI: 10.1039/d0ee00714e

• Chang, Y.; Lau, T.; Chow, P.C.; Wu, N.; Su, D.; Zhang, W.; Meng, H.; Ma, C.; Liu, T.; Li, K.; Zou, X.; Wong, K.; Lu, X.; Yan, H.*; Zhan, C.*
  “ A 16.4% efficiency organic photovoltaic cell enabled using two donor polymers with their side-chains oriented differently by a ternary strategy “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 3676-3685
  DOI: 10.1039/c9ta13293g

• Yang, T.; Ma, R.; Cheng, H.; Xiao, Y.; Luo, Z.*; Chen, Y.; Luo, S.; Liu, T.*; Lu, X.; Yan, H.*
  “ A compatible polymer acceptor enables efficient and stable organic solar cells as solid additive “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 17706-17712
  DOI: 10.1039/d0ta06146h

• Sun, H.; Yu, H.; Shi, Y.; Yu, J.; Peng, Z.; Zhang, X.; Liu, B.; Wang, J.; Singh, R.; Lee, J.; Li, Y.; Wei, Z.; Liao, Q.; Kan, Z.; Ye, L.; Yan, H.*; Gao, F.*; Guo, X.*
  “ A Narrow-Bandgap n-Type Polymer with an Acceptor-Acceptor Backbone Enabling Efficient All-Polymer Solar Cells “.
  Advanced Materials , ( 2020 ), 32 , 2004183
  DOI: 10.1002/adma.202004183

• Fan, Q.; Su, W.*; Chen, S.; Liu, T.; Zhuang, W.; Ma, R.; Wen, X.; Yin, Z.; Luo, Z.; Guo, X.; Hou, L.; Moth-Poulsen, K.; Li, Y.*; Zhang, Z.; Yang, C.; Yu, D.; Yan, H.; Zhang, M.*; Wang, E.*
  “ A Non-Conjugated Polymer Acceptor for Efficient and Thermally Stable All-Polymer Solar Cells “.
  Angewandte Chemie – International Edition , ( 2020 ), 59 , 19835-19840
  DOI: 10.1002/anie.202005662

• Zeng, A.; Pan, M.; Lin, B.; Lau, T.; Qin, M.; Li, K.; Ma, W.*; Lu, X.*; Zhan, C.*; Yan, H.*
  “ A Nonfullerene Acceptor with Alkylthio- and Dimethoxy-Thiophene-Groups Yielding High-Performance Ternary Organic Solar Cells “.
  Solar RRL , ( 2020 ), 4 , 1900353
  DOI: 10.1002/solr.201900353

• Ma, R.; Liu, T.*; Luo, Z.; Gao, K.*; Chen, K.; Zhang, G.*; Gao, W.; Xiao, Y.; Lau, T.; Fan, Q.; Chen, Y.; Ma, L.*; Sun, H.; Cai, G.; Yang, T.; Lu, X.; Wang, E.; Yang, C.; Jen, A.K.; Yan, H.*
  “ Adding a Third Component with Reduced Miscibility and Higher LUMO Level Enables Efficient Ternary Organic Solar Cells “.
  ACS Energy Letters , ( 2020 ), 5 , 2711-2720
  DOI: 10.1021/acsenergylett.0c01364

• Yao, H.; Ma, L.; Yu, H.; Yu, J.; Chow, P.C.; Xue, W.; Zou, X.; Chen, Y.; Liang, J.; Arunagiri, L.; Gao, F.; Sun, H.*; Zhang, G.*; Ma, W.*; Yan, H.*
  “ All-Polymer Solar Cells with over 12% Efficiency and a Small Voltage Loss Enabled by a Polymer Acceptor Based on an Extended Fused Ring Core “.
  Advanced Energy Materials , ( 2020 ), ,
  DOI: 10.1002/aenm.202001408

• Luo, Z.; Ma, R.; Chen, Z.; Xiao, Y.; Zhang, G.; Liu, T.*; Sun, R.; Zhan, Q.; Zou, Y.; Zhong, C.; Chen, Y.; Sun, H.; Chai, G.; Chen, K.; Guo, X.; Min, J.; Lu, X.*; Yang, C.*; Yan, H.*
  “ Altering the Positions of Chlorine and Bromine Substitution on the End Group Enables High-Performance Acceptor and Efficient Organic Solar Cells “.
  Advanced Energy Materials , ( 2020 ), 10 , 2002649
  DOI: 10.1002/aenm.202002649

• Liu, T.; Zhang, Y.; Shao, Y.; Ma, R.; Luo, Z.*; Xiao, Y.; Yang, T.; Lu, X.; Yuan, Z.; Yan, H.*; Chen, Y.*; Li, Y.
  “ Asymmetric Acceptors with Fluorine and Chlorine Substitution for Organic Solar Cells toward 16.83% Efficiency “.
  Advanced Functional Materials , ( 2020 ), , 2000456
  DOI: 10.1002/adfm.202000456

• Li, G.; Wang, S.; Li, D.; Liu, T.*; Yan, C.; Li, J.; Yang, W.; Luo, Z.; Ma, R.; Wang, X.; Cui, G.; Wang, Y.; Ma, W.; Huo, L.; Chen, K.; Yan, H.*; Tang, B.*
  “ Chalcogen-Fused Perylene Diimides-Based Nonfullerene Acceptors for High-Performance Organic Solar Cells: Insight into the Effect of O, S, and Se “.
  Solar RRL , ( 2020 ), 4 , 1900453
  DOI: 10.1002/solr.201900453

• Liu, T.*; Ma, R.; Luo, Z.*; Guo, Y.; Zhang, G.; Xiao, Y.; Yang, T.; Chen, Y.; Li, G.; Yi, Y.; Lu, X.; Yan, H.*; Tang, B.*
  “ Concurrent Improvement in JSC and VOC in High-Efficiency Ternary Organic Solar Cells Enabled by a Red-Absorbing Small-Molecule Acceptor with High LUMO Level “.
  Energy & Environmental Science , ( 2020 ), 13 , 2115-2123
  DOI: 10.1039/d0ee00662a

• Luo, Z.; Ma, R.; Xiao, Y.; Liu, T.*; Sun, H.; Su, M.; Guo, Q.; Li, G.; Gao, W.; Chen, Y.; Zou, Y.; Guo, X.; Zhang, M.; Lu, X.*; Yan, H.*; Yang, C.*
  “ Conformation-Tuning Effect of Asymmetric Small Molecule Acceptors on Molecular Packing, Interaction, and Photovoltaic Performance “.
  Small , ( 2020 ), ,
  DOI: 10.1002/smll.202001942

• Li, M.*; Bin, H.; Jiao, X.; Wienk, M.M.; Yan, H.; Janssen, R.A.J.*
  “ Controlling the Microstructure of Conjugated Polymers in High-Mobility Monolayer Transistors via the Dissolution Temperature “.
  Angewandte Chemie – International Edition , ( 2020 ), 59 , 846-852
  DOI: 10.1002/anie.201911311

• Chai, G.; Zhang, J.*; Pan, M.; Wang, Z.; Yu, J.; Liang, J.; Yu, H.; Chen, Y.; Shang, A.; Liu, X.; Bai, F.; Ma, R.; Chang, Y.; Luo, S.; Zeng, A.; Zhou, H.; Chen, K.; Gao, F.; Ade, H.*; Yan, H.*
  “ Deciphering the Role of Chalcogen-Containing Heterocycles in Nonfullerene Acceptors for Organic Solar Cells “.
  ACS Energy Letters , ( 2020 ), 5 , 3415-3425
  DOI: 10.1021/acsenergylett.0c01688

• Zhang, G.; Chen, X.*; Xiao, J.; Chow, P.C.*; Ren, M.; Kupgan, G.; Jiao, X.; Chan, C.C.; Du, X.; Xia, R.; Chen, Z.; Yuan, J.; Zhang, Y.; Zhang, S.; Liu, Y.; Zou, Y.*; Yan, H.; Wong, K.; Coropceanu, V.; Li, N.; Brabec, C.J.; Bredas, J.-L.*; Yip, H.*; Cao, Y.
  “ Delocalization of exciton and electron wavefunction in non-fullerene acceptor molecules enables efficient organic solar cells “.
  Nature Communications , ( 2020 ), 11 , 3943
  DOI: 10.1038/s41467-020-17867-1

• Gao, W.; Liu, T.*; Sun, R.; Zhang, G.; Xiao, Y.; Ma, R.; Zhong, C.; Lu, X.*; Min, J.*; Yan, H.*; Yang, C.*
  “ Dithieno[3,2-b:2 π,3 π-d]pyrrol-Fused Asymmetrical Electron Acceptors: A Study into the Effects of Nitrogen-Functionalization on Reducing Nonradiative Recombination Loss and Dipole Moment on Morphology “.
  Advanced Science , ( 2020 ), 7 , 1902657
  DOI: 10.1002/advs.201902657

• Zeng, M.; Wang, X.; Ma, R.; Zhu, W.; Li, Y.*; Chen, Z.; Zhou, J.; Li, W.; Liu, T.*; He, Z.*; Yan, H.; Huang, F.*; Cao, Y.
  “ Dopamine Semiquinone Radical Doped PEDOT:PSS: Enhanced Conductivity, Work Function and Performance in Organic Solar Cells “.
  Advanced Energy Materials , ( 2020 ), 10 , 2000743
  DOI: 10.1002/aenm.202000743

• Jiang, K.; Wang, J.; Wu, F.; Xue, Q.*; Yao, Q.; Zhang, J.; Chen, Y.; Zhang, G.; Zhu, Z.; Yan, H.; Zhu, L.*; Yip, H.*
  “ Dopant-Free Organic Hole-Transporting Material for Efficient and Stable Inverted All-Inorganic and Hybrid Perovskite Solar Cells “.
  Advanced Materials , ( 2020 ), 32 , 1908011
  DOI: 10.1002/adma.201908011

• Bin, H.; Angunawela, I.; Ma, R.; Nallapaneni, A.; Zhu, C.; Leenaers, P.J.; Saes, B.W.; Wienk, M.M.; Yan, H.; Ade, H.*; Janssen, R.A.J.*
  “ Effect of main and side chain chlorination on the photovoltaic properties of benzodithiophene-alt-benzotriazole polymers “.
  Journal of Materials Chemistry C , ( 2020 ), 8 , 15426-15435
  DOI: 10.1039/d0tc03095c

• Li, X.; Angunawela, I.; Chang, Y.; Zhou, J.; Huang, H.; Zhong, L.; Liebman-Pelaez, A.; Zhu, C.; Meng, L.; Xie, Z.*; Ade, H.*; Yan, H.*; Li, Y.*
  “ Effect of the chlorine substitution position of the end-group on intermolecular interactions and photovoltaic performance of small molecule acceptors “.
  Energy and Environmental Science , ( 2020 ), 13 , 5028-5038
  DOI: 10.1039/d0ee02251a

• Li, G.; Li, D.; Ma, R.; Liu, T.*; Luo, Z.; Cui, G.; Tong, L.; Zhang, M.; Wang, Z.; Liu, F.*; Xu, Liang; Yan, H.*; Tang, B.*
  “ Efficient modulation of end groups for the asymmetric small molecule acceptors enabling organic solar cells with over 15% efficiency “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 5927-5938
  DOI: 10.1039/d0ta01032d

• Pan, L.; Liu, T.*; Wang, J.; Ye, L.*; Luo, Z.; Ma, R.; Pang, S.; Chen, Y.; Ade, H.; Yan, H.; Duan, C.*; Huang, F.; Cao, Y.
  “ Efficient Organic Ternary Solar Cells Employing Narrow Bandgap Diketopyrrolopyrrole Polymer and Nonfullerene Acceptor “.
  Chemistry of Materials , ( 2020 ), 32 , 7309-7317
  DOI: 10.1021/acs.chemmater.0c02133

• Luo, Z.; Ma, R.; Liu, T.*; Yu, J.; Xiao, Y.; Sun, R.; Xie, G.; Yuan, J.; Chen, Y.; Chen, K.; Chai, G.; Sun, H.; Min, J.; Zhang, J.; Zou, Y.; Yang, C.; Lu, X.*; Gao, F.; Yan, H.*
  “ Fine-Tuning Energy Levels via Asymmetric End Groups Enables Polymer Solar Cells with Efficiencies over 17% “.
  Joule , ( 2020 ), 4 , 1236-1247
  DOI: 10.1016/j.joule.2020.03.023

• Li, X.; Ma, R.; Liu, T.*; Xiao, Y.; Chai, G.; Lu, X.*; Yan, H.*; Li, Y.*
  “ Fine-tuning HOMO energy levels between PM6 and PBDB-T polymer donors via ternary copolymerization “.
  Science China Chemistry , ( 2020 ), 63 , 1256-1261
  DOI: 10.1007/s11426-020-9805-7

• Chen, K.*; Ma, R.; Liu, T.*; Luo, Z.; Xu, X.; Wang, Qiutang; Chen, Y.; Xiao, Y.; Lu, X.; Yan, H.*
  “ Fluorinated pyrazine-based DA conjugated polymers for efficient non-fullerene polymer solar cells “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 7083-7089
  DOI: 10.1039/d0ta00599a

• Han, H.; Bai, F.; Wei, R.; Yu, H.; Guo, Y.; Yan, H.*; Zhao, D.*
  “ High Open-circuit Voltage and Low Voltage Loss in All-polymer Solar Cell with a Poly(coronenediimide-vinylene) Acceptor “.
  Chinese Journal of Polymer Science , ( 2020 ), 38 , 1157-1163
  DOI: 10.1007/s10118-020-2426-6

• Ma, L.; Chen, Y.; Chow, P.C.; Zhang, G.; Huang, J.; Ma, C.; Zhang, J.; Yin, H.; Cheung, M.A.; Wong, K.; So, S.; Yan, H.*
  “ High-Efficiency Indoor Organic Photovoltaics with a Band-Aligned Interlayer “.
  Joule , ( 2020 ), 4 , 1486-1500
  DOI: 10.1016/j.joule.2020.05.010

• Xu, X.; Feng, K.; Yu, L.; Yan, H.*; Li, R.; Peng, Q.*
  “ Highly Efficient All-Polymer Solar Cells Enabled by p-Doping of the Polymer Donor “.
  ACS Energy Letters , ( 2020 ), 5 , 2434-2443
  DOI: 10.1021/acsenergylett.0c01010

• Xu, X.; Yu, L.; Yan, H.*; Li, R.; Peng, Q.*
  “ Highly efficient non-fullerene organic solar cells enabled by a delayed processing method using a non-halogenated solvent “.
  Energy and Environmental Science , ( 2020 ), 13 , 4381-4388
  DOI: 10.1039/d0ee02034f

• Yu, H.; Ma, R.; Xiao, Y.; Zhang, J.; Liu, T.; Luo, Z.; Chen, Y.; Bai, F.; Lu, X.; Yan, H.; Lin, H.*
  “ Improved organic solar cell efficiency based on the regulation of an alkyl chain on chlorinated non-fullerene acceptors “.
  Materials Chemistry Frontiers , ( 2020 ), 4 , 2428-2434
  DOI: 10.1039/d0qm00151a

• Ma, R.; Liu, T.*; Luo, Z.; Guo, Q.; Xiao, Y.; Chen, Y.; Li, X.; Luo, S.; Lu, X.; Zhang, M.*; Li, Y.; Yan, H.*
  “ Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17% “.
  Science China Chemistry , ( 2020 ), 63 , 325-330
  DOI: 10.1007/s11426-019-9669-3

• Ma, R.; Chen, Y.; Liu, T.; Xiao, Y.; Luo, Z.; Zhang, M.; Luo, S.; Lu, X.*; Zhang, G.*; Li, Y.; Yan, H.; Chen, K.*
  “ Improving the performance of near infrared binary polymer solar cells by adding a second non-fullerene intermediate band-gap acceptor “.
  Journal of Materials Chemistry C , ( 2020 ), 8 , 909-915
  DOI: 10.1039/c9tc06362e

• Cheung, M.A.; Yu, H.*; Luo, S.; Wang, Z.; Qi, Z.; Zhou, W.; Arunagiri, L.; Chang, Y.; Yao, H.*; Ade, H.*; Yan, H.*
  “ Incorporation of alkylthio side chains on benzothiadiazole-based non-fullerene acceptors enables high-performance organic solar cells with over 16% efficiency “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 23239-23247
  DOI: 10.1039/d0ta08830g

• Luo, Z.; Liu, T.; Yan, H.; Zou, Y.; Yang, C.*
  “ Isomerization Strategy of Nonfullerene Small-Molecule Acceptors for Organic Solar Cells “.
  Advanced Functional Materials , ( 2020 ), 30 , 2004477
  DOI: 10.1002/adfm.202004477

• Yan, C.; Liu, T.; Chen, Y.; Ma, R.; Tang, H.; Li, G.; Li, T.; Xiao, Y.; Yang, T.; Lu, X.; Zhan, X.; Yan, H.; Li, G.*; Tang, B.*
  “ ITC-2Cl: A Versatile Middle-Bandgap Nonfullerene Acceptor for High-Efficiency Panchromatic Ternary Organic Solar Cells “.
  Solar RRL , ( 2020 ), 4 , 1900377
  DOI: 10.1002/solr.201900377

• Hinrichsen, T.F.; Chan, C.C.; Ma, C.; Paleček, D.; Gillett, A.; Chen, S.; Zou, X.; Zhang, G.; Yip, H.; Wong, K.; Friend, R.H.*; Yan, H.*; Rao, A.*; Chow, P.C.*
  “ Long-lived and disorder-free charge transfer states enable endothermic charge separation in efficient non-fullerene organic solar cells “.
  Nature Communications , ( 2020 ), 11 , 5617
  DOI: 10.1038/s41467-020-19332-5

• Fan, Q.; Su, W.; Chen, S.; Kim, W.; Chen, X.; Lee, B.; Liu, T.; Méndez-romero, U.A.; Ma, R.; Yang, T.; Zhuang, W.; Li, Y.; Kim, T.*; Hou, L.*; Yang, C.*; Yan, H.; Yu, D.; Wang, E.*
  “ Mechanically Robust All-Polymer Solar Cells from Narrow Band Gap Acceptors with Hetero-Bridging Atoms “.
  Joule , ( 2020 ), 4 , 658-672
  DOI: 10.1016/j.joule.2020.01.014

• Yu, H.; Qi, Z.; Li, X.*; Wang, Z.; Zhou, W.; Ade, H.*; Yan, H.*; Chen, K.*
  “ Modulating Energy Level on an A-D-A’-D-A-Type Unfused Acceptor by a Benzothiadiazole Core Enables Organic Solar Cells with Simple Procedure and High Performance “.
  Solar RRL , ( 2020 ), 4 , 2000421
  DOI: 10.1002/solr.202000421

• Zhang, J.; Li, Y.; Peng, Z.; Bai, F.; Ma, L.; Ade, H.*; Li, Z.*; Yan, H.*
  “ Near-infrared Electron Acceptors with Fused Nonacyclic Molecular Backbones for Nonfullerene Organic Solar Cells “.
  Materials Chemistry Frontiers , ( 2020 ), 4 , 1729-1738
  DOI: 10.1039/c9qm00754g

• Guo, Q.; Ma, R.; Hu, J.; Wang, Z.; Sun, H.; Dong, X.; Luo, Z.; Liu, T.; Guo, X.; Yan, H.; Liu, F.; Zhang, M.*
  “ Over 15% Efficiency Polymer Solar Cells Enabled by Conformation Tuning of Newly Designed Asymmetric Small-Molecule Acceptors “.
  Advanced Functional Materials , ( 2020 ), 30 , 2000383
  DOI: 10.1002/adfm.202000383

• Xie, B.; Zhang, K.*; Hu, Z.; Fang, H.; Lin, B.; Yin, Q.; He, B.; Dong, S.; Ying, L.; Ma, W.*; Huang, F.*; Yan, H.*; Cao, Y.
  “ Polymer Pre-Aggregation Enables Optimal Morphology and High Performance in All-Polymer Solar Cells “.
  Splar RRL , ( 2020 ), 4 , 1900385
  DOI: 10.1002/solr.201900385

• Luo, Z.; Liu, T.*; Ma, R.; Xiao, Y.; Zhan, L.; Zhang, G.; Sun, H.*; Ni, F.; Chai, G.; Wang, J.; Zhong, C.; Zou, Y.; Guo, X.; Lu, X.; Chen, H.; Yan, H.*; Yang, C.*
  “ Precisely Controlling the Position of Bromine on the End Group Enables Well-Regular Polymer Acceptors for All-Polymer Solar Cells with Efficiencies over 15% “.
  Advanced Materials , ( 2020 ), 32 , 202005942
  DOI: 10.1002/adma.202005942

• Liang, J.; Pan, M.; Chai, G.; Peng, Z.; Zhang, J.; Luo, S.; Han, Q.; Chen, Y.; Shang, A.; Bai, F.; Xu, Y.; Yu, H.; Lai, J.Y.; Chen, Q.; Zhang, M.; Ade, H.*; Yan, H.*
  “ Random Polymerization Strategy Leads to a Family of Donor Polymers Enabling Well-Controlled Morphology and Multiple Cases of High-Performance Organic Solar Cells “.
  Advanced Materials , ( 2020 ), 32 , 2003500
  DOI: 10.1002/adma.202003500

• Wu, J.; Li, G.; Fang, J.; Guo, X.; Zhu, L.; Guo, B.; Wang, Y.; Zhang, G.; Arunagiri, L.; Liu, F.; Yan, H.*; Zhang, M.*; Li, Y.
  “ Random terpolymer based on thiophene-thiazolothiazole unit enabling efficient non-fullerene organic solar cells “.
  Nature Communications , ( 2020 ), 11 , 4612
  DOI: 10.1038/s41467-020-18378-9

• Sun, H.; Liu, B.; Yu, J.; Zou, X.; Zhang, G.; Zhang, Y.; Zhang, W.; Su, M.; Fan, Q.; Yang, K.; Chen, J.; Yan, H.; Gao, F.; Guo, X.*
  “ Reducing Energy Loss via Tuning Energy Levels of Polymer Acceptors for Efficient All-Polymer Solar Cells “.
  Science China Chemistry , ( 2020 ), 63 , 1785-1792
  DOI: 10.1007/s11426-020-9826-4

• Yan, C.; Ma, R.; Cai, G.; Liu, T.; Zhu, Jingshuai; Wang, J.; Huang, Jiaming; Luo, Z.; Xiao, Y.; Lu, X.; Yang, T.; Zhan, Xiaowen; Yan, H.; Li, G.
  “ Reducing VOC loss via structure compatible and high lowest unoccupied molecular orbital nonfullerene acceptors for over 17%-efficiency ternary organic photovoltaics “.
  EcoMat , ( 2020 ), 2 , e12061
  DOI: 10.1002/eom2.12061

• Li, X.; Pan, M.; Lau, T.-K.; Liu, W.; Li, K.; Yao, N.; Shen, F.; Huo, S.; Zhang, F.; Wu, Y.*; Li, X.*; Lu, X.; Yan, H.; Zhan, C.*
  “ Roles of Acceptor Guests in Tuning the Organic Solar Cell Property Based on an Efficient Binary Material System with a Nearly Zero Hole-Transfer Driving Force “.
  Chemistry of Materials , ( 2020 ), 32 , 5182-5191
  DOI: 10.1021/acs.chemmater.0c01245

• Arunagiri, L.; Peng, Z.; Zou, X.; Yu, H.; Zhang, G.*; Wang, Z.; Lai, J.Y.; Zhang, J.; Zheng, Y.; Cui, C.; Huang, F.; Zou, Y.; Wong, K.; Chow, P. C.-Y.*; Ade, H.*; Yan, H.*
  “ Selective Hole and Electron Transport in Efficient Quaternary Blend Organic Solar Cells “.
  Joule , ( 2020 ), 4 , 1790-1805
  DOI: 10.1016/j.joule.2020.06.014

• Yan, C.; Tang, H.; Ma, R.; Zhang, M.; Liu, T.*; Lv, J.; Huang, J.; Yang, Y.; Xu, T.; Kan, Z.; Yan, H.; Liu, F.*; Lu, S.; Li, G.*
  “ Synergy of Liquid-Crystalline Small-Molecule and Polymeric Donors Delivers Uncommon Morphology Evolution and 16.6% Efficiency Organic Photovoltaics “.
  Advanced Science , ( 2020 ), 7 , 2000149
  DOI: 10.1002/advs.202000149

• Zeng, L.; Ma, R.; Zhang, Q.; Liu, T.*; Xiao, Y.; Zhang, K.; Cui, S.; Zhu, W.; Lu, X.; Yan, H.*; Liu, Y.*
  “ Synergy Strategy to the Flexible Alkyl and Chloride Side-chain Engineered Quinoxaline-Based D-A Conjugated Polymers for Efficient Non-fullerene Polymer Solar Cells “.
  Materials Chemistry Frontiers , ( 2021 ), 5 ,
  DOI: 10.1039/D0QM00826E

• Yu, H.; Qi, Z.; Zhang, J.*; Wang, Z.; Sun, R.; Chang, Y.; Sun, H.; Zhou, W.; Min, J.; Ade, H.*; Yan, H.*
  “ Tailoring non-fullerene acceptors using selenium-incorporated heterocycles for organic solar cells with over 16% efficiency “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 23756-23765
  DOI: 10.1039/d0ta06658c

• Xiao, Y.; Ma, R.; Zhou, G.; Zhu, J.; Lau, T.; Dai, S.; Rech, J. J.; Zhao, N.; You, W.; Yan, H.; Zhan, X.; Lu, X.*
  “ Ternary Blending Driven Molecular Reorientation of Non-Fullerene Acceptor IDIC with Backbone Order “.
  ACS Applied Energy Materials , ( 2020 ), 3 , 10814-10822
  DOI: 10.1021/acsaem.0c01858

• Zhang, C.; Liu, T.; Wang, J.-L.*; Liu, K.-K.; Yang, C.; Zhang, H.-J.; Ma, R.; Yan, H.*
  “ Tetrabromination versus Tetrachlorination: A Molecular Terminal Engineering of Nonfluorinated Acceptors to Control Aggregation for Highly Efficient Polymer Solar Cells with Increased Voc and Higher Jsc Simultaneously “.
  Solar RRL , ( 2020 ), 4 , 2000212
  DOI: 10.1002/solr.202000212

• Hu, H.*; Ghasemi, M.; Peng, Z.; Zhang, J.; Rech, J. J.; You, W.; Yan, H.; Ade, H.*
  “ The Role of Demixing and Crystallization Kinetics on the Stability of Non-Fullerene Organic Solar Cells “.
  Advanced Materials , ( 2020 ), 32 , 2005348
  DOI: 10.1002/adma.202005348

• Yin, H.; Ma, L.; Yan, J.; Zhang, Z.; Cheung, M.A.; Zhang, J.; Yan, H.*; So, S.*
  “ Thick-Film Low Driving-Force Indoor Light Harvesters “.
  Solar RRL , ( 2020 ), 4 , 2000291
  DOI: 10.1002/solr.202000291

• Facchetti, A.*; Huang, H.; Yan, H.; Ponce Ortiz, R.
  “ Tobin Marks’ 75th birthday. A celebration of a career devoted to materials chemistry “.
  Journal of Materials Chemistry C , ( 2020 ), 8 , 14979-14982
  DOI: 10.1039/d0tc90215b

• Yu, H.; Arunagiri, L.; Zhang, L.; Huang, J.; Ma, W.; Zhang, J.; Yan, H.*
  “ Transannularly conjugated tetrameric perylene diimide acceptors containing [2.2] paracyclophane for non-fullerene organic solar cells “.
  Journal of Materials Chemistry A , ( 2020 ), 8 , 6501-6509
  DOI: 10.1039/d0ta00047g

• Ma, R.; Li, G.; Li, D.; Liu, T.*; Luo, Z.; Zhang, G.*; Zhang, M.; Wang, Z.; Luo, S.; Yang, T.; Liu, F.; Yan, H.*; Tang, B.*
  “ Understanding the Effect of End Group Halogenation in Tuning Miscibility and Morphology of High-Performance Small Molecular Acceptors “.
  Solar RRL , ( 2020 ), ,
  DOI: 10.1002/solr.202000250

• Liu, Q.; Wang, Y.; Arunagiri, L.; Khatib, M.; Manzhos, S.; Feron, K.; Bottle, S. E.; Haick, H.; Yan, H.; Michinobu, T.; Sonar, P.*
  “ Versatile nature of anthanthrone based polymers as active multifunctional semiconductors for various organic electronic devices “.
  Materials Advances , ( 2020 ), 1 , 3428-3438
  DOI: 10.1039/d0ma00728e

• Fan, Q.; Liu, T.*; Zhang, M.; Su, W.; Mendez-Romero, U. A.; Yang, T.; Geng, X.; Hou, L.; Yu, D.; Liu, F.*; Yan, H.*; Wang, E.*
  “ Weak Makes It Powerful: The Role of Cognate Small Molecules as an Alloy Donor in 2D/1A Ternary Fullerene Solar Cells for Finely Tuned Hierarchical Morphology in Thick Active Layers “.
  Small Methods , ( 2020 ), 4 , 1900766
  DOI: 10.1002/smtd.201900766

• Zhang, Y.; Wang, Y.; Ma, R.; Luo, Z.; Liu, T.*; Kang, S.-H.; Yan, H.; Yuan, Z.; Yang, C.*; Chen, Y.*
  “ Wide Band-gap Two-dimension Conjugated Polymer Donors with Different Amounts of Chlorine Substitution on Alkoxyphenyl Conjugated Side Chains for Non-fullerene Polymer Solar Cells “.
  Chinese Journal of Polymer Science , ( 2020 ), 38 , 797-805
  DOI: 10.1007/s10118-020-2435-5

2019

• Chang, Y.; Zhang, X.; Tang, Y.; Gupta, M.; Su, D.; Liang, J.; Yan, D.; Li, K.; Guo, X.; Ma, W.*; Yan, H.*; Zhan, C.*
  “ 14%-efficiency fullerene-free ternary solar cell enabled by designing a short side-chain substituted small-molecule acceptor “.
  Nano Energy , ( 2019 ), 64 , 103934
  DOI: 10.1016/j.nanoen.2019.103934

• Li, Y.; Meng, H.; Liu, T.*; Xiao, Y.; Tang, Z.; Pang, B.; Li, Y.; Xiang, Y.; Zhang, G.; Lu, X.; Yu, G.; Yan, H.*; Zhan, C.*; Huang, J.*; Yao, J.
  “ 8.78% Efficient All-Polymer Solar Cells Enabled by Polymer Acceptors Based on a B‚ÜêN Embedded Electron-Deficient Unit “.
  Advanced Materials , ( 2019 ), 31 , 1904585
  DOI: 10.1002/adma.201904585

• Bai, F.; Yuan, Y.; Zhang, J.; Liu, H.; Li, X.; Chueh, C.-C.; Yan, H.*; Zhu, Z.*; Jen, A.K..*
  “ A 0D/3D Heterostructured All-Inorganic Halide Perovskite Solar Cell with High Performance and Enhanced Phase Stability “.
  Advanced Materials , ( 2019 ), 31 , 1904735
  DOI: 10.1002/adma.201904735

• Liu, T.; Gao, W.; Zhang, G.*; Zhang, L.; Xin, J.; Ma, W.; Yang, C.*; Yan, H.*; Zhan, C.*; Yao, J.
  “ A High-Performance Non-Fullerene Acceptor Compatible with Polymers with Different Bandgaps for Efficient Organic Solar Cells “.
  Solar RRL , ( 2019 ), 3 , 1800376
  DOI: 10.1002/solr.201800376

• Sun, H.; Liu, T.*; Yu, J.; Lau, T.; Zhang, G.; Zhang, Y.; Su, M.; Tang, Y.; Ma, R.; Liu, B.; Liang, J.; Feng, K.; Lu, X.*; Guo, X.*; Gao, F.; Yan, H.*
  “ A Monothiophene Unit Incorporating Both Fluoro and Ester Substitution Enabling High-performance Donor Polymers for Non-fullerene Solar Cells With 16.4% Efficiency “.
  Energy & Environmental Science , ( 2019 ), 12 , 3328-3337
  DOI: 10.1039/c9ee01890e

• Liu, T.*; Luo, Z.; Chen, Y.; Yang, T.; Xiao, Y.; Zhang, G.; Ma, R.; Lu, X.*; Zhan, C.*; Zhang, M.; Yang, C.*; Li, Y.; Yao, J.; Yan, H.*
  “ A nonfullerene acceptor with a 1000 nm absorption edge enables ternary organic solar cells with improved optical and morphological properties and efficiencies over 15% “.
  Energy and Environmental Science , ( 2019 ), 12 , 2529-2536
  DOI: 10.1039/c9ee01030k

• Hao, M.; Liu, T.*; Xiao, Y.; Ma, L.; Zhang, G.; Zhong, C.; Chen, Z.; Luo, Z.; Lu, X.; Yan, H.*; Wang, L.*; Yang, C.*
  “ Achieving Balanced Charge Transport and Favorable Blend Morphology in Non-Fullerene Solar Cells via Acceptor End Group Modification “.
  Chemistry of Materials , ( 2019 ), 31 , 1752-1760
  DOI: 10.1021/acs.chemmater.8b05327

• Yang, L.*; Jia, Y.; Yan, H.*
  “ Achieving high efficiency and low voltage loss simultaneously for non-fullerene organic solar cells “.
  Science China Chemistry , ( 2019 ), 62 , 405-406
  DOI: 10.1007/s11426-019-9443-2

• Jiang, K.; Wei, Q.; Lai, J.Y.; Peng, Z.; Kim, H.; Yuan, J.; Ye, L.; Ade, H. W.; Zou, Y.*; Yan, H.*
  “ Alkyl Chain Tuning of Small Molecule Acceptors for Efficient Organic Solar Cells “.
  Joule , ( 2019 ), 3 , 3020-3033
  DOI: 10.1016/j.joule.2019.09.010

• Zhang, J.; Li, Y.; Hu, H.; Zhang, G.; Ade, H.*; Yan, H.*
  “ Chlorinated Thiophene End Groups for Highly Crystalline Alkylated Non-Fullerene Acceptors toward Efficient Organic Solar Cells “.
  Chemistry of Materials , ( 2019 ), 31 , 6672-6676
  DOI: 10.1021/acs.chemmater.9b00980

• Yin, H.; Ma, L.; Wang, Y.; Huang, J.; Yu, H.; Zhang, J.; Chow, P.C.; Ma, W.; So, S.*; Yan, H.*
  “ Donor Polymer Can Assist Electron Transport in Bulk Heterojunction Blends with Small Energetic Offsets “.
  Advanced Materials , ( 2019 ), 31 , 1903998
  DOI: 10.1002/adma.201903998

• Yao, H.; Bai, F.; Hu, H.; Arunagiri, L.; Zhang, J.; Chen, Y.; Yu, H.; Chen, S.; Liu, T.; Lai, J.Y.; Zou, Y.; Ade, H.*; Yan, H.*
  “ Efficient All-Polymer Solar Cells based on a New Polymer Acceptor Achieving 10.3% Power Conversion Efficiency “.
  ACS Energy Letters , ( 2019 ), 4 , 417-422
  DOI: 10.1021/acsenergylett.8b02114

• Wang, R.; Jiang, K.; Yu, H.; Wu, F.*; Zhu, L.*; Yan, H.*
  “ Efficient Inverted Perovskite Solar Cells With Truxene-bridged PDI Trimers as Electron Transporting Materials “.
  Materials Chemistry Frontiers , ( 2019 ), 3 , 2137-2142
  DOI: 10.1039/c9qm00329k

• Jiang, K.; Wu, F.*; Zhang, G.; Zhu, L.*; Yan, H.*
  “ Efficient Perovskite Solar Cells Based on Dopant-Free Spiro-OMeTAD Processed With Halogen-Free Green Solvent “.
  Solar RRL , ( 2019 ), 3 , 1900061
  DOI: 10.1002/solr.201900061

• Li, G.*; Yang, S.; Liu, T.*; Li, J.; Yang, W.; Luo, Z.; Yan, C.; Li, D.; Wang, X.; Cui, G.; Yang, T.; Xu, L.; Zhan, S.; Huo, L.*; Yan, H.*; Tang, B.*
  “ Functionalizing tetraphenylpyrazine with perylene diimides (PDIs) as high-performance nonfullerene acceptors “.
  Journal of Materials Chemistry C , ( 2019 ), 7 , 14563-14570
  DOI: 10.1039/c9tc05643b

• Dong, S.; Zhang, K.*; Xie, B.; Xiao, J.; Yip, H.; Huang, F.*; Yan, H.; Cao, Y.
  “ High-Performance Large-Area Organic Solar Cells Enabled by Sequential Bilayer Processing via Nonhalogenated Solvents “.
  Advanced Energy Materials , ( 2019 ), 9 , 1802832
  DOI: 10.1002/aenm.201802832

• Zhang, J.; Bai, F.; Li, Y.; Hu, H.; Liu, B.; Zou, X.; Yu, H.; Huang, J.; Pan, D.; Ade, H.*; Yan, H.*
  “ Intramolecular π-stacked Perylene-diimide Acceptors for Non-fullerene Organic Solar Cells “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 8136-8143
  DOI: 10.1039/c9ta00343f

• Zhang, Y.; Shi, L.; Yang, T.; Liu, T.*; Xiao, Y.; Lu, X.; Yan, H.*; Yuan, Z.*; Chen, Y.*; Li, Y.
  “ Introducing an identical benzodithiophene donor unit for polymer donors and small-molecule acceptors to unveil the relationship between the molecular structure and photovoltaic performance of non-fullerene organic solar cells “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 26351-26357
  DOI: 10.1039/c9ta09241b

• Jiang, K.; Wu, F.*; Zhang, G.; Chow, P.C.; Ma, C.; Li, S.; Wong, K.; Zhu, L.*; Yan, H.*
  “ Inverted planar perovskite solar cells based on CsI-doped PEDOT:PSS with efficiency beyond 20% and small energy loss “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 21662-21667
  DOI: 10.1039/c9ta08995k

• Luo, Z.; Liu, T.*; Chen, Z.; Xiao, Y.; Zhang, G.; Huo, L.; Zhong, C.; Lu, X.*; Yan, H.*; Sun, Y.*; Yang, C.*
  “ Isomerization of Perylene Diimide Based Acceptors Enabling High-Performance Nonfullerene Organic Solar Cells with Excellent Fill Factor “.
  Advanced Science , ( 2019 ), 6 , 1802065
  DOI: 10.1002/advs.201802065

• Li, G.*; Yang, W.; Wang, S.; Liu, T.*; Yan, C.; Zhang, Y.; Li, D.; Wang, X.; Hao, P.; Li, J.; Huo, L.; Yan, H.*; Tang, B.*
  “ Methane-perylene diimide-based small molecule acceptors for high efficiency non-fullerene organic solar cells “.
  Journal of Materials Chemistry C , ( 2019 ), 7 , 10901-10907
  DOI: 10.1039/c9tc03457a

• Gao, W.; Wu, F.; Liu, T.; Zhang, G.; Chen, Z.; Zhong, C.; Zhu, L.*; Liu, F.; Yan, H.*; Yang, C.*
  “ Multifunctional Asymmetrical Molecules for High-performance Perovskite and Organic Solar Cells “.
  Journal of Material Chemistry A , ( 2019 ), 7 , 2412-2420
  DOI: 10.1039/c8ta10975c

• Xu, J.; Wu, H.-C.; Zhu, C.; Ehrlich, A.; Shaw, L.; Nikolka, M.; Wang, S.; Molina-Lopez, F.; Gu, X.; Luo, S.; Zhou, D.; Kim, Y.-H.; Wang, G.-J. N.; Gu, K.; Feig, V. R.; Chen, S.; Kim, Y.; Katsumata, T.; Zheng, Y.-Q.; Yan, H.; Chung, J. W.; Lopez, J.; Murmann, B.; Bao, Z.*
  “ Multi-scale Ordering in Highly Stretchable Polymer Semiconducting Films “.
  Nature Materials , ( 2019 ), 18 , 594-601
  DOI: 10.1038/s41563-019-0340-5

• Fan, Q.; Liu, T.*; Gao, W.; Xiao, Y.; Wu, J.; Su, W.; Guo, X.; Lu, X.*; Yang, C.; Yan, H.*; Zhang, M.*; Li, Y.
  “ Overcoming the Energy Loss in Asymmetrical Non-fullerene Acceptor-based Polymer Solar Cells by Halogenation of Polymer Donors “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 15404-15410
  DOI: 10.1039/c9ta02243k

• Luo, Z.; Liu, T.*; Wang, Y.; Zhang, G.; Sun, R.; Chen, Z.; Zhong, C.; Wu, J.; Chen, Y.; Zhang, M.; Zou, Y.; Ma, W.*; Yan, H.*; Min, J.*; Li, Y.; Yang, C.*
  “ Reduced Energy Loss Enabled by a Chlorinated Thiophene-Fused Ending-Group Small Molecular Acceptor for Efficient Nonfullerene Organic Solar Cells with 13.6% Efficiency “.
  Advanced Energy Materials , ( 2019 ), 9 , 1900041
  DOI: 10.1002/aenm.201900041

• Gao, W.; Liu, T.; Luo, Z.; Zhang, L.; Ming, R.; Zhong, C.*; Ma, W.; Yan, H.*; Yang, C.*
  “ Regulating exciton bonding energy and bulk heterojunction morphology in organic solar cells via methyl-functionalized non-fullerene acceptors “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 6809-6817
  DOI: 10.1039/c9ta00597h

• Luo, Z.; Liu, T.*; Xiao, Y.; Yang, T.; Chen, Z.; Zhang, G.; Zhong, C.; Ma, R.; Chen, Y.; Zou, Y.; Lu, X.*; Yan, H.*; Yang, C.*
  “ Significantly improving the performance of polymer solar cells by the isomeric ending-group based small molecular acceptors: Insight into the isomerization “.
  Nano Energy , ( 2019 ), 66 , 104146
  DOI: 10.1016/j.nanoen.2019.104146

• Gao, W.; Liu, T.*; Li, J.; Xiao, Y.; Zhang, G.; Chen, Y.; Zhong, C.; Lu, X.*; Yan, H.*; Yang, C.*
  “ Simultaneously Increasing Open-circuit Voltage and Short-circuit Current to Minimize the Energy Loss in Organic Solar Cells via Designing Asymmetrical Non-fullerene Acceptor “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 11053-11061
  DOI: 10.1039/c9ta02283j

• Lin, R.; Lei, H.; Ruan, D.; Jiang, K.; Yu, X.; Wang, Z*; Mai, W*; Yan, H.*
  “ Solar-powered overall water splitting system combing metal-organic frameworks derived bimetallic nanohybrids based electrocatalysts and one organic solar cell “.
  Nano Energy , ( 2019 ), 56 , 82-91
  DOI: 10.1016/j.nanoen.2018.10.058

• Xu, X.; Bi, Z.; Ma, W.*; Zhang, G.; Yan, H.*; Li, Y.; Peng, Q.*
  “ Stable Large Area Organic Solar Cells Realized by Using Random Terpolymers Donors Combined With a Ternary Blend “.
  Journal of Materials Chemistry A , ( 2019 ), 7 , 14199-14208
  DOI: 10.1039/c9ta03188j

• Arunagiri, L.; Zhang, G.*; Hu, H.; Yao, H.; Zhang, K.; Li, Y.; Chow, P.C.; Ade, H.; Yan, H.*
  “ Temperature-Dependent Aggregation Donor Polymers Enable Highly Efficient Sequentially Processed Organic Photovoltaics Without the Need of Orthogonal Solvents “.
  Advanced Functional Materials , ( 2019 ), 29 , 1902478
  DOI: 10.1002/adfm.201902478

• Kim, J.-H.*; Schaefer, C.; Ma, T.; Zhao, J.; Turner, J.; Ghasemi, M.; Constantinou, I.; So, F.; Yan, H.; Gadisa, A.*; Ade, H.*
  “ The Critical Impact of Material and Process Compatibility on the Active Layer Morphology and Performance of Organic Ternary Solar Cells “.
  Advanced Energy Materials , ( 2019 ), 9 , 1802293
  DOI: 10.1002/aenm.201802293

• Chang, Y.; Lau, T.; Pan, M.; Lu, X.*; Yan, H.*; Zhan, C.*
  “ The synergy of host-guest nonfullerene acceptors enables 16%-efficiency polymer solar cells with increased open-circuit voltage and fill-factor “.
  Materials Horizons , ( 2019 ), 6 , 2094-2102
  DOI: 10.1039/c9mh00844f

• Feng, G.; Li, J.; He, Y.; Zheng, W.; Wang, J.; Li, C.*; Tang, Z.; Osvet, A.; Li, N.; Brabec, C.J.; Yi, Y.; Yan, H.; Li, W.*
  “ Thermal-Driven Phase Separation of Double-Cable Polymers Enables Efficient Single-Component Organic Solar Cells “.
  Joule , ( 2019 ), 3 , 1765-1781
  DOI: 10.1016/j.joule.2019.05.008

• Zhang, Y.; Wang, Y.; Yang, T.; Liu, T.*; Xiao, Y.; Lu, X.; Yan, H.*; Yuan, Z.*; Chen, Y.*; Li, Y.
  “ Thioether Bond Modification Enables Boosted Photovoltaic Performance of Nonfullerene Polymer Solar Cells “.
  ACS Applied Materials & Interfaces , ( 2019 ), 11 , 32218-32224
  DOI: 10.1021/acsami.9b11700

• Han, H.; Ma, L.; Zhang, L.; Guo, Y.; Li, Y.; Yu, H.; Ma, W.*; Yan, H.*; Zhao, D.*
  “ Tweaking the Molecular Geometry of a Tetraperylenediimide Acceptor “.
  ACS Applied Materials and Interfaces , ( 2019 ), 11 , 6970-6977
  DOI: 10.1021/acsami.8b19065

• Liu, T.; Gao, W.; Wang, Y.; Yang, T.; Ma, R.; Zhang, G.*; Zhong, C.; Ma, W.*; Yan, H.*; Yang, C.*
  “ Unconjugated Side-Chain Engineering Enables Small Molecular Acceptors for Highly Efficient Non-Fullerene Organic Solar Cells: Insights into the Fine-Tuning of Acceptor Properties and Micromorphology “.
  Advanced Functional Materials , ( 2019 ), 29 , 1902155
  DOI: 10.1002/adfm.201902155

2018

• 132. Yao, H.; Li, Y.; Hu, H.; Chow, P.C.; Chen, S.; Zhao, J.; Li, Z.; Carpenter, j.; Lai, J.Y.; Yang, G.; Liu, Y.; Lin, H.; Ade, H.*; Yan, H.*
  “ A Facile Method to Fine-Tune Polymer Aggregation Properties and Blend Morphology of Polymer Solar Cells Using Donor Polymers with Randomly Distributed Alkyl Chains “.
  Advanced Energy Materials , ( 2018 ), 8 , 1701895
  DOI: 10.1002/aenm.201701895

• 131. Chen, S.; Wang, Y.; Zhang, L.; Zhao, J.; Chen, Y.; Zhu, D.; Yao, H.; Zhang, G.; Ma, W.; Friend, R.H..; Chow, P.C.*; Gao, F.*; Yan, H.*
  “ Efficient Nonfullerene Organic Solar Cells with Small Driving Forces for Both Hole and Electron Transfer “.
  Advanced Materials , ( 2018 ), 30 , 1804215
  DOI: 10.1002/adma.201804215

• 130. Hu, H.; Jiang, K.; Chow, P.C.; Ye, L.; Zhang, G.; Li, Z.; Carpenter, J. H.; Ade, H.*; Yan, H.*
  “ Influence of Donor Polymer on the Molecular Ordering of Small Molecular Acceptors in Nonfullerene Polymer Solar Cells “.
  Advanced Energy Materials , ( 2018 ), 8 , 1701674
  DOI: 10.1002/aenm.201701674

• 129. Jiang, K.; Zhang, G.*; Yang, G.; Zhang, J.; Li, Z.; Ma, T.; Hu, H.; Ma, W.; Ade, H.; Yan, H.*
  “ Multiple Cases of Efficient Nonfullerene Ternary Organic Solar Cells Enabled by an Effective Morphology Control Method “.
  Advanced Energy Materials , ( 2018 ), 8 , 1701370
  DOI: 10.1002/aenm.201701370

• 128. Yang, J.; Zhai, S.; Qin, H.; Yan, H.; Xing, D.*; Hu, X.*
  “ NIR-controlled morphology transformation and pulsatile drug delivery based on multifunctional phototheranostic nanoparticles for photoacoustic imaging-guided photothermal-chemotherapy “.
  Biomaterials , ( 2018 ), 176 , 44896
  DOI: 10.1016/j.biomaterials.2018.05.033

• 127. Li, G.; Wang, S.; Liu, T.*; Hao, P.; Liu, Z.; Li, F.; Yang, L.-M.; Zhang, Y.; Li, D.; Yang, S.; Zhao, J.; Li, J.*; Yan, H.*; Tang, B.*
  “ Non-fullerene acceptor engineering with three-dimensional thiophene/selenophene-annulated perylene diimides for high performance polymer solar cells “.
  Journal of Materials Chemistry C , ( 2018 ), 6 , 12601-12607
  DOI: 10.1039/c8tc04926b

• 126. Li, G.; Zhang, Y.; Liu, T.*; Wang, S.; Li, D.; Li, J.*; Li, F.; Yang, L.; Luo, Z.; Yang, C.; Yan, H.; Hao, P.; Shang, Q.; Tang, B.*
  “ Pyran-annulated Perylene Diimide Derivatives as Non-fullerene Acceptors for High Performance Organic Solar Cells “.
  Journal of Materials Chemistry C , ( 2018 ), 6 , 11111-11117
  DOI: 10.1039/c8tc02823k

• 125. Wang, J.; Ma, L.; Huang, J.; Chen, M.; Liu, Z.; Jiang, G.*; Yan, H.*
  “ Side-chain Effect of Perylene Diimide Tetramer-based Non-fullerene acceptors for Improving the Performance of Organic Solar Cells “.
  Materials Chemistry Frontiers , ( 2018 ), 2 , 2104-2108
  DOI: 10.1039/c8qm00451j

• 124. Yang, G.; Liu, J.; Ma, L.; Chen, S.; Lai, J.Y.; Ma, W.*; Yan, H.*
  “ Understanding the influence of carboxylate substitution on the property of high-performance donor polymers in non-fullerene organic solar cells “.
  Materials Chemistry Frontiers , ( 2018 ), 2 , 1360-1365
  DOI: 10.1039/c8qm00101d

• 123. Jiang, K., Wu, F.*, Zhu, L.*, Yan, H.*.
  “Naphthodiperylenetetraimide-Based Polymer as Electron-Transporting Material for Efficient Inverted Perovskite Solar Cells“.
  ACS Applied Materials & Interfaces, (2018)
  DOI: 10.1021/acsami.8b12675

• 122. Qian, D., Zheng, Z., Yao, H., Tress, W., Hopper, T. R., Chen, S., Li, S., Liu, J., Chen, S., Zhang, J., Liu, X.-K., Ouyang, L., jin, Y., Pozina, G., Buyanova, I. A., Chen, W. M., Inganäs, O., Coropceanu, V.*, Bredas, J.-L., Yan, H., Hou, J.,, Zhang, F., Bakulin, A. A.*, Gao, F.*.
  “Design rules for minimizing voltage losses in high-efficiency organic solar cells“.
  Nature Materials, (2018), 17, 703-709

• 121. Chen, S., Yao, H., Hu, B., Zhang, G., Arunagiri, L., Ma, L.-K., Huang, J., Zhang, J., Zhu, Z., Bai, F., Ma, W.*, Yan, H.*.
  “A Nonfullerene Semitransparent Tandem Organic Solar Cell with 10.5% Power Conversion Efficiency“.
  Advanced Energy Materials, (2018)
  DOI: 10.1002/aenm.201800529

• 120. Liu, T.*, Luo, Z., Fan, Q., Zhang, G., Zhang, L., Gao, W., Guo, X., Ma, W.*, Zhang, M.*, Yang, G.*, Li, Y., Yan, H.*.
  “Use of Two Structurally Similar Small Molecular Acceptors Enabling Ternary Organic Solar Cells with High Efficiencies and Fill Factors“.
  Energy & Environmental Science, (2018)
  DOI: 10.1039/C8EE01700J

• 119. Jiang, K., Wu, F.*, Yu, H., Yao, Y., Zhang, G., Zhu, L.*, Yan, H.*.
  “A perylene diimide-based electron transport layer enabling efficient inverted perovskite solar cells“.
  Journal of Materials Chemistry A, (2018), 6, 16868-16873

• 118. Liu, J., Ma, L.-K., Sheong, F. K., Zhang, L., Hu, H., Zhang, J.-X., Zhang, J., Li, Z, Ma, C., Hau, X., Pan, D, Ade, H., Ma, W., Yan, H.*.
  “Carboxylate substitution position influencing polymer properties and enabling non-fullerene organic solar cells with high open circuit voltage and low voltage loss“.
  Journal of Materials Chemistry A, (2018), 6, 16874-16881

• 117. Yan, L., Xue Q.*, Liu, M., Zhu, Z., Tian J., Li., Z., Chen, Z., Chen, Z., Yan, H., Yip, H.-L.*, Cao, Y.
  “Interface Engineering for All‐Inorganic CsPbI2Br Perovskite Solar Cells with Efficiency over 14%“.
  Advanced Materials, (2018), 30, 1802509

• 116. Feng, K., Yang, G., Xu, X., Zhang, G., Yan, H.*, Awatani, O., Ye, L., Ade, H., Li, Y., Peng, Q.*.
  “High‐Performance Wide Bandgap Copolymers Using an EDOT Modified Benzodithiophene Donor Block with 10.11% Efficiency“.
  Advanced Energy Materials, (2018), 8, 1602773

• 115. Ye, L., Collins, B. A., Jiao, X., Zhao, J., Yan, H., Ade, H.*.
  “Miscibility–Function Relations in Organic Solar Cells: Significance of Optimal Miscibility in Relation to Percolation“.
  Advanced Energy Materials, (2018)
  DOI: 10.1002/aenm.201703058

• 114. Tsai, C.-H., Li, N., Lee, C.-C. Wu, H.-C., Zhu, Z.*, Wang, L., Chen, W.-C., Yan, H.*, Chueh, C.-C.*.
  “Efficient and UV-stable perovskite solar cells enabled by side chain-engineered polymeric hole-transporting layers“.
  Journal of Materials Chemistry A, (2018), 6, 12999-13004

• 113. Chen, Y., Liu, T., Hu, H., Ma, T., Lai, J.Y.K., Zhang, J., Ade, H.*, Yan, H.*.
  “Modulation of End Groups for Low‐Bandgap Nonfullerene Acceptors Enabling High‐Performance Organic Solar Cells“.
  Advanced Energy Materials, (2018), 8, 1801203

• 112. Hu, H., Li, Y., Zhang, J., Peng, Z., Ma, L.-K., Xin, J., Huang, J., Ma, T., Jiang, K., Zhang, G., Ma, W., Ade, H.*, Yan, H.*.
  “Effect of Ring‐Fusion on Miscibility and Domain Purity: Key Factors Determining the Performance of PDI‐Based Nonfullerene Organic Solar Cells“.
  Advanced Energy Materials, (2018), 8, 1800234

• 111. Zhang, Z., Tan, H.S., Guo, X.*, Facchetti, A.*, Yan, H.*.
  “Material insights and challenges for non-fullerene organic solar cells based on small molecular acceptors“.
  Nature Energy, (2018), 3, 720-731

• 110. Gao, W.*, Liu, T.*, Zhong, C., Zhang, G., Zhang, Y., Ming, R., Zhang, L., Xin, J., Wu, K., Ma, W.*, Yan, H.*, Liu, Y., Yang, C.*.
  “Asymmetrical Small Molecule Acceptor Enabling Nonfullerene Polymer Solar Cell with Fill Factor Approaching 79%“.
  ACS Energy Letters, (2018), 3, 1760-1768

• 109. Gao, W., Liu, T.*, Ming, R., Luo, Z., Wu, K., Zhang, L., Xin, J., Xie, D., Zhang, G., Ma, W.*, Yan, H.*, Yang, C.*.
  “Near-Infrared Small Molecule Acceptor Enabled High-Performance Nonfullerene Polymer Solar Cells with Over 13% Efficiency“.
  Advanced Functional Materials, (2018), 28, 1803128

• 108. Gao, W., Zhang, M., Liu, T., Ming, R., An, Q., Wu, K., Xie, D., Luo, Z., Zhong, C., Liu, F.*, Zhang, F.*, Yan, H., Yang, C.* .
  “Asymmetrical Ladder-Type Donor-Induced Polar Small Molecule Acceptor to Promote Fill Factors Approaching 77% for High-Performance Nonfullerene Polymer Solar Cells“.
  Advanced Materials, (2018), 30, 1800052

• 107. Liu, J., Ma, L.K., Lin, H., Zhang, L., Li, Z., Law, W.K., Shang, A., Hu, H., Ma, W., Yan, H.*.
  “A Donor Polymer Based on a Difluorinated Pentathiophene Unit Enabling Enhanced Performance for Nonfullerene Organic Solar Cells“.
  Small Methods, (2018), 2, 1700415

• 106. Zhang, G., Zhao, J., Chow, P.C.Y., Jiang, K., Zhang, J., Zhu, Z., Zhang, J., Huang, F., Yan, H.*.
  “Nonfullerene Acceptor Molecules for Bulk Heterojunction Organic Solar Cells“.
  Chemical Reviews, (2018), 118, 3447-3507

• 105. Dantanarayana, V., Fuzell, J., Nai, D., Jacobs, I.E., Yan, H., Faller, R., Larsen, D.*, Moule, A.J.*.
  “Put Your Backbone into It: Excited-State Structural Relaxation of P?BT4T-2DT Conducting Polymer in Solution“.
  The Journal of Physical Chemistry C, (2018), 122, 7020-7026

• 104. Yan, C., Barlow, S., Wang, Z., Yan, H., Jen, A.K.-Y., Marder, S.R., Zhan, X.*.
  “Non-fullerene acceptors for organic solar cells“.
  Nature Reviews Materials, (2018), 3, 18003

• 103. Ye, L., Hu, H., Ghasemi, M., Wang, T., Collins, B.A., Kim, J., Jiang, K., Carpenter, J.H., Li, H., Li, Z., McAfee, T., Zhang, J., Chen, X., Lai, J.Y.L., Ma, T., Bredas, J., Yan, H.*, Ade, H.*.
  “Quantitative relations between interaction parameter, miscibility and function in organic solar cells“.
  Nature Materials, (2018), 17, 253-260

• 102. Sun, X., Xue, Q, Zhu, Z.*, Xiao, X., Jiang, K., Yip, H., Yan, H.*, Li, Z.*.
  “Fluoranthene-based dopant-free hole transporting materials for efficient perovskite solar cells“.
  Chemical Science, (2018), 9, 2698-2704

• 101. Li, M., Mangalore, D.K., Zhao, J., Carpenter, J.H., Yan, H., Ade, H., Yan, H.*, Müllen, K., Blom, P.W.M.*, de Leeuw, D.M., Asadi, K.*.
  “Integrated circuits based on conjugated polymer monolayer“.
  Nature Communications, (2018), 9, 451

• 100. Chen, S., Zhang, L., Ma, C., Meng, D., Zhang, J., Zhang, G., Li, Z., Chow, P.C.Y., Ma, W.*, Wang, Z., Wong, K.S., Ade, H., Yan, H.*.
  “Alkyl Chain Regiochemistry of Benzotriazole-Based Donor Polymers Influencing Morphology and Performances of Non-Fullerene Organic Solar Cells“.
  Advanced Energy Materials, (2018), 8, 1702427

2017

• 99. Bauer, N., Zhang, Q., Zhao, J., Ye, L., Kim, J.-H., Constantinou, I., Yan, L., So, F., Ade, H., Yan, H., You, W.*.
  “Comparing non-fullerene acceptors with fullerene in polymer solar cells: a case study with FTAZ and PyCNTAZ“.
  Journal of Materials Chemistry A, (2017), 5, 4886-4893

• 98. Jiang, K., Zhang, G.*, Yang, G., Zhang, J., Li, Z., Ma, T., Hu, H., Ma, W., Ade, H., Yan, H.*.
  “Multiple Cases of Efficient Nonfullerene Ternary Organic Solar Cells Enabled by an Effective Morphology Control Method“.
  Advanced Energy Materials, (2018), 8, 1701370

• 97. Cao, F., Tseng, C., Lin, F., Chen, Y., Yan, H., Cheng, Y.*.
  “Selenophene-Incorporated Quaterchalcogenophene-Based Donor–Acceptor Copolymers To Achieve Efficient Solar Cells with J_sc Exceeding 20 mA/cm²“.
  Chemistry of Materials, (2017), 29, 10045-10052

• 96. Zhang, J., Li, Y., Huang, J., Hu, H., Zhang, G., Ma, T., Chow, P.C.Y., Ade, H., Pan, D., Yan, H.*.
  “Ring-Fusion of Perylene Diimide Acceptor Enabling Efficient Nonfullerene Organic Solar Cells with a Small Voltage Loss“.
  Journal of the American Chemical Society, (2017), 139, 16092-16095

• 95. Feng, K., Yang, G., Xu, X., Zhang, G., Yan, H.*, Awartani, O., Ye, L., Ade, H., Li, Y., Peng, Q.*.
  “High-Performance Wide Bandgap Copolymers Using an EDOT Modified Benzodithiophene Donor Block with 10.11% Efficiency“.
  Advanced Energy Materials, (2018), 8, 1602773

• 94. Yao, H., Li, Y., Hu, H., Chow, P.C.Y., Chen, S., Zhao, J., Li, Z>, Carpenter, J.H., Lai, J.Y.L., Yang, G., Liu, Y., Lin, H., Ade, H.*, Yan, H.*.
  “A Facile Method to Fine-Tune Polymer Aggregation Properties and Blend Morphology of Polymer Solar Cells Using Donor Polymers with Randomly Distributed Alkyl Chains“.
  Advanced Energy Materials, (2018), 8, 1701895

• 93. Liu, J., Ma, L.K., Li, Z., Hu , H., Ma, T., Zhu, C., Ade, H., Yan, H.*.
  “A random donor polymer based on an asymmetric building block to tune the morphology of non-fullerene organic solar cells“.
  Journal of Materials Chemistry A, (2017), 5, 22480-22488

• 92. Hu, H., Jiang, K., Chow, P.C.Y., Ye, L., Zhang, G., Li, Z., Carpenter, J.H., Ade, H.*, Yan, H.*.
  “Influence of Donor Polymer on the Molecular Ordering of Small Molecular Acceptors in Nonfullerene Polymer Solar Cells“.
  Advanced Energy Materials, (2018), 8, 1701674

• 91. Hu, H., Chow, P.C.Y., Zhang, G., Ma, T., Liu, J., Yang, G., Yan, H.*.
  “Design of Donor Polymers with Strong Temperature-Dependent Aggregation Property for Efficient Organic Photovoltaics“.
  Accounts of Chemical Research, (2017), 50, 2519-2528

• 90. Ruan, R., Lin, R., Jiang, K., Yu, X., Zhu, Y., Fu, Y., Wang, Z.*, Yan, H.*, Ma, W.*.
  “High-Performance Porous Molybdenum Oxynitride Based Fiber Supercapacitors“.
  ACS Applied Materials & Interfaces, (2017), 9, 29699-29706

• 89. Pirotte, G., Agarkar, S., Xu, B., ZHang, J., Lutsen, L., Vanderzande, D., Yan, H., Pollet, P., REynolds, J. R.*, Maes, W.*, Marder, S. R.*.
  “Molecular weight tuning of low bandgap polymers by continuous flow chemistry: increasing the applicability of PffBT4T for organic photovoltaics“.
  Journal of Materials Chemistry A, (2017), 5, 18166-18175

• 88. Liu, Y., Chen, S., Zhang, G., Chow, P.C.Y., Yan, H.*.
  “A wide bandgap conjugated polymer based on a vertically connected benzodithiophene unit enabling efficient non-fullerene polymer solar cells“.
  Journal of Materials Chemistry A, (2017), 5, 15017-15020

• 87. Chen, S., Liu, Y., Zhang, L., Chow, P.C.Y., Wang, Z., Zhang, G., Ma, W.*, Yan, H.*.
  “A Wide-Bandgap Donor Polymer for Highly Efficient Non-fullerene Organic Solar Cells with a Small Voltage Loss“.
  Journal of the American Chemical Society, (2017), 139, 6298–6301

• 86. Zhang, J., Jiang, K., Yang, G., Ma, T., Liu, J., Li, Z., Lai, J.Y.L., Ma, W.*, Yan, H.*.
  “Tuning Energy Levels without Negatively Affecting Morphology: A Promising Approach to Achieving Optimal Energetic Match and Efficient Nonfullerene Polymer Solar Cells“.
  Advanced Energy Materials , (2017), 7, 1602119

• 85. Guo, Y., Li, Y., Awartani, O., Han, H., Zhao, J., Ade, H.*, Yan, H.*, Zhao, D.*.
  “Improved Performance of All-Polymer Solar Cells Enabled by Naphthodiperylenetetraimide-Based Polymer Acceptor“.
  Advanced Materials , (2017), 29, 1700309

• 84. Zhang, G., Yang, G., Yan, H.*, Kim, J., Ade, H.*, Wu, W., Xu, X., Duan, Y., Peng Q.*.
  “Efficient Nonfullerene Polymer Solar Cells Enabled by a Novel Wide Bandgap Small Molecular Acceptor“.
  Advanced Materials , (2017), 29,1606054

• 83. Bauer, N., Zhang, Q., Zhao, J., Ye, L., Kim, J., Constantinou I., Yan, L., So, F., Ade, H., Yan, H., You, W.*.
  “Comparing non-fullerene acceptors with fullerene in polymer solar cells: a case study with FTAZ and PyCNTAZ“.
  Journal of Materials Chemistry A, (2017), 5, 4886-4893

• 82. Xu, J., Wang, S., Wang, G.N., Zhu, C., Luo, S., Jin, L., Chen, S., To, J.W.F., Rondeau-Gagné, S., Park, J., Schroeder, B.C., Lu, C., Oh, J.Y., Wang, Y., Kim, Y., Yan, H., Sinclair R., Zhou, D., Xue, G., Murmannn, B., Linder, C., Cai, W., Tok, J.B.-H., Chung, J.W.*, Bao, Z.*.
  “Highly stretchable polymer semiconductor films through the nanoconfinement effect“.
  Science, (2017), 355, 59-64

• 81. Gu, X., Zhou, Y., Gu, K., Kurosawa T., Guo, Y., Li, Y., Lin, H., Schroeder, B.C., Yan, H., Molina-Lopez, F., Tassone, C.J., Wang, C., MAnnsfeld, S.C.B., Yan, H., Zhao, D., Toney, M.F.*, Bao, Z.*.
  “Roll-to-Roll Printed Large-Area All-Polymer Solar Cells with 5% Efficiency Based on a Low Crystallinity Conjugated Polymer Blend“.
  Advanced Energy Materials , (2017), 7, 1602742

• 80. Zhang, G., Zhang, K., Yin, Q., Jiang, X., Wang, Z., Xin, J., Ma, W., Yan, H., Huang, F.*, Cao,Y..
  “High-Performance Ternary Organic Solar Cell Enabled by a Thick Active Layer Containing a Liquid Crystalline Small Molecule Donor“.
  Journal of the American Chemical Society, (2017), 139, 2387-2395

• 79. Wang, Z., Zheng, N., Zhang, W., Yan, H., Xie, Z.*, Ma, Y., Huang, F.*, Cao,Y..
  “Self-Doped, n-Type Perylene Diimide Derivatives as Electron Transporting Layers for High-Efficiency Polymer Solar Cells“.
  Advanced Energy Materials , (2017), 7, 1700232

• 78. Chiou, D., Cao, F., Hsu, J., Tsai, C., Lai, Y., Jeng, U., Zhang, J., Yan, H., Su, C., Cheng, Y.*.
  “Synthesis and side-chain isomeric effect of 4,9-/5,10-dialkylated-ß-angular-shaped naphthodithiophenes-based donor–acceptor copolymers for polymer solar cells and field-effect transistors“.
  Polymer Chemistry, (2017), 8, 2334-2345

• 77. Yang, G., Li, Z., Jiang, K., Zhang, J., Chen, J., Zhang, G., Huang, F., Ma, W.*, Yan, H.*.
  “Optimal extent of fluorination enabling strong temperature-dependent aggregation, favorable blend morphology and high-efficiency polymer solar cells“.
  Science China Chemistry, (2017), 60, 545-551

• 76. Guo, Y., Li, Y., Han, H., Yan, H.*, Zhao, D.*.
  “All-Polymer Solar Cells with Perylenediimide Polymer Acceptors“.
  Chinese Journal of Polymer Science, (2017), 35, 293-301

• 75. Chen, S., Yao, H., Li, Z., Awartani, O., Liu, Y., Wang, Z., Yang, G., Zhang, J., Ade, H.*, Yan, H.*.
  “Surprising Effects upon Inserting Benzene Units into a Quaterthiophene-Based D-A Polymer–Improving Non-Fullerene Organic Solar Cells via Donor Polymer Design“.
  Advanced Energy Materials , (2017), 7, 1602304

• 74. Duan Y., Xu, X., Yan, H.*, Wu, W., Li, Z., Peng, Q.*.
  “Pronounced Effects of a Triazine Core on Photovoltaic Performance–Efficient Organic Solar Cells Enabled by a PDI Trimer-Based Small Molecular Acceptor“.
  Advanced Materials , (2017), 29, 1605115

• 73. Chen, S., Zhang, G., Liu, J., Yao, H., Zhang, J., Ma, T., Li, Z., Yan, H.*.
  “An All-Solution Processed Recombination Layer with Mild Post-Treatment Enabling Efficient Homo-Tandem Non-fullerene Organic Solar Cells“.
  Advanced Materials , (2017), 29, 1604231

2016

• 72. Baran, D.*, Kirchartz, T.*, Wheeler, S., Dimitrov, S., Abdelsamie, M., Gorman, J., Ashraf, R. S., Holliday, S., Wadsworth, A., Gasparini, N., Kaienburg, P., Yan, H., Amassian, A., Brabec, C. J., Durrant, J. R., McCulloch, I..
  “Reduced voltage losses yield 10% efficient fullerene free organic solar cells with >1 V open circuit voltages“.
  Energy & Environmental Science, (2016), 9, 3783-3793

• 71. Li, Z., Jiang, K., Yang, G., Lai, J.Y.L., Ma, T., Zhao, J., Ma, W.*, Yan, H.*.
  “Donor polymer design enables efficient non-fullerene organic solar cells“.
  Nature Communications, (2016), 7, 13094.

• 70. Vidal, S., Izquierdo, M., Law, W. K., jiang, K., Filippone, S., Perles, J., Yan, H.*, Martin, N.*.
  “Photochemical site-selective synthesis of [70]methanofullerenes“.
  Chemical Communications , (2016), 52, 12733-12736

• 69. Hendsbee, A.D., Sun, J., Law, W.K., Yan, H., Hill, I.G., Spasyuk D.M., Welch, G.C*.
  “Synthesis, Self-Assembly, and Solar Cell Performance of N-Annulated Perylene Diimide Non-Fullerene Acceptors“.
  Chemistry of Materials, (2016), 28, 7098–7109

• 68. Li, M., An, C., Marszalek, T., Baumgarten, M., Yan, H., Müllen, K.*, Pisula, W.*.
  “Controlling the Surface Organization of Conjugated Donor–Acceptor Polymers by their Aggregation in Solution“.
  Advanced Materials, (2016), 28, 9430–9438

• 67. Zhu, Z., Chueh, C.-C., Zhang, G., Huang, F., Yan, H.*, Jen, A.K.-Y.*.
  “Improved Ambient-Stable Perovskite Solar Cells Enabled by a Hybrid Polymeric Electron-Transporting Layer“.
  ChemSusChem, (2016), 9, 2586–2591

• 66. Lin, H., Chen, S., Hu, H., Zhang, L., Ma, T., Lai, J.Y.L., Li, Z., Qin, A., Huang, X., Tang, B., Yan, H.*.
  “Reduced Intramolecular Twisting Improves the Performance of 3D Molecular Acceptors in Non-Fullerene Organic Solar Cells“.
  Advanced Materials, (2016), 28, 8546–8551

• 65. Guo, Y., Li, Y., Awartani, O., Zhao, J., Han, H., Ade, H.*, Zhao, D.*, Yan, H.*.
  “A Vinylene-Bridged Perylenediimide-Based Polymeric Acceptor Enabling Efficient All-Polymer Solar Cells Processed under Ambient Conditions“.
  Advanced Materials, (2016), 28, 8483–8489

• 64. Ro, H.W., Downing, J. M., Engmann, S., Herzing, A. A., DeLongchamp, D. M.*, Richter, L. J.*, Mukherjee, S., Ade, H.*, Abdelsamie, M., Jagadamma, L. K., Amassian, A*, Liu, Y., Yan, H.*.
  “Morphology Changes Upon Scaling a High Efficiency, Solution-Processed Solar Cell From Spin-Coating to Roll-to-Roll Coating“.
  Energy & Environmental Science ,(2016), 9, 2835-2846

• 63. Liu, J., Chen, S., Qian, D., Gautam, B., Yang, G., Zhao, J., Bergqvist, J., Zhang, F., Ma, W., Ade, H., Inganäs, O., Gundogdu, K.*, Gao, F.*, Yan, H.*.
  “Fast charge separation in a non-fullerene organic solar cell with a small driving force “.
  Nature Energy, (2016), 1, 16089

• 62. Zhao, J., Li, Y., Yang, G., Jiang, K., Lin, H., Ade, H., Ma, W.*, Yan, H.*.
  “Efficient organic solar cells processed from hydrocarbon solvents “.
  Nature Energy, (2016), 1, 15027

• 61. Hu, H., Jiang, K., Kim, J., Yang, G., Li, Z., Ma, T., Lu, G., Qu, Y.*, Ade, H.*, Yan, H.*.
  “Influence of fluorination on the properties and performance of isoindigo-quaterthiophene -based polymers ”.
  Journal of Materials Chemistry A, (2016), 4, 5039-5043

2015

• 60. Zhao, J., Li, Y., Hunt A., Zhang, J., Yao, H., Li, Z., Zhang, J., Huang, F., Ade, H.*, Yan, H.*.
  “A Difluorobenzoxadiazole Building Block for Efficient Polymer Solar Cells “.
  Advanced Materials, (2015), 28, 1868-1873.

• 59. Zhu, Z., Xue, Q., He, H., Jiang, K., Hu, Z., Bai, Y., Zhang, T., Xiao, S., Gundogdu, K., Gautam, B.R., Ade, H., Huang, F., Wong, K.S., Yip, H.*, Yang, S.*, Yan, H.*. “A PCBM Electron Transport Layer Containing Small Amounts of Dual Polymer Additives that Enables Enhanced Perovskite Solar Cell Performance”.
  Advanced Science, (2015), 3(9), 1500353.

• 58. Hu, H., Jiang, K., Yang, G., Liu, J., Li, Z., Lin, H., Liu, Y., Zhao, J., Zhang, J., Huang, F., Qu, Y., Ma, W.*, Yan, H.*. ”Terthiophene-Based D-A Polymer with an Asymmetric Arrangement of Alkyl Chains That Enables Efficient Polymer Solar Cells “.
  Journal of the American Chemical Society, (2015), 137(44), 14149–14157.

• 57. Yan, Y., Huang, L., Zhou, Y., Han, S., Zhao, L., Zhuang, J., Peng, H., Yan, H., Roy, V.A.L.*.
  “Surface Decoration on Polymeric Gate Dielectrics for Flexible Organic Field-Effect Transistors via Hydroxylation and Subsequent Monolayer Self-Assembly “.
  ACS Applied Materials & Interfaces, 7(42), 23464-23471.

• 56. Zhao, J., Li, Y., Zhang, J., Zhang, L., Lai, J.Y.L., Jiang, K., Mu, C., Li, Z., Chan, C.L.C., Hunt A., Mukherjee, S., Ade, H., Huang, X., Yan, H.*.
  “The influence of spacer units on molecular properties and solar cell performance of non-fullerene acceptors “.
  Journal of Materials Chemistry A, (2015), 3(40), 20108-20112.

• 55. Ma, T., Jiang, K., Chen, S., Hu, H., Lin, H., Li, Z., Zhao., J., Liu, Y., Yan, H.*.
  “Efficient Low-bandgap Polymer Solar Cells with High V_OC and Good Stability “.
  Advanced Energy Materials, (2015), 5(20), 1501282.

• 54. Ma, W.*, Yang, G., Jiang, K., Carpenter, J.H., Zhao, J., Zhu, C., Wang, C., Ade, H.*, Yan, H.*.
  “Influence of Processing Parameters and Molecular Weight on the Morphology and Properties of high-performance PffBT4T-2OD:PC71BM Organic Solar Cells “.
  Advanced Energy Materials, (2015), 5(23), 1501400.

• 53. Lin, H., Chen, S., Li, Z., Lai, J.Y.L., Yang, G., McAfee, T., Jiang, K., Hu, H., Zhao, J., Ma, W., Ade, H., Yan, H.*.
  “High-Performance Nonfullerene Polymer Solar Cells Based on a Pair of Donor–Acceptor Materials with Complementary Absorption Properties “.
  Advance Materials, (2015), 27(45), 7299-7304.

• 52. Li, Z., Lin, H., Jiang, K., Carpenter, J., Li, Y., Liu, Y., Hu, H., Zhao, J., Ma, W., Ade, H.*, Yan, H.*.
  “Dramatic performance enhancement for large bandgap thick-film polymer solar cells introduced by a difluorinated donor unit “.
  Nano Energy, (2015), 15, 607–615.

• 51. Liu, Y., Lai, J.Y.L., Chen, S., Li, Y., Jiang, K., Zhao, J., Li, Z., Hu, H., Ma, T., Lin, H., Liu, J., Zhang. J., Yu, D., Yan, H.*.
  “Efficient non-fullerene polymer solar cells enabled by tetrahedron-shaped core based 3D-structure small-molecular electron acceptors “.
  Journal of Materials Chemistry A, (2015), 3(26), 13632-13636.

• 50. Zhao, J., Li,Y. Lin, H., Liu, Y., Jiang, K., Mu, C., Ma, T., Lai, J.Y.L., Yan, H.*.
  “High-Efficiency Non-Fullerene Organic Solar Cells Enabled by a Difluorobenzothiadizole-Based Donor Polymer Combined with a Properly Matched Small Molecule Acceptor “.
  Energy & Environmental Science, (2015), 8(2), 520-525.

• 49. Bai, Y., YU, H., Zhu, Z., Jiang, K., Zhang, T., Zhao, N.*, Yang, S.*, Yan, H.*.
  “High performance inverted structure perovskite solar cells based on a PCBM:polystyrene blend electron transport layer “.
  Journal of Materials Chemistry A, (2015), 3(17), 9098-9120.

• 48. Liu, Y., Mu, C., Jiang, K., Zhao, J., Li, Y., Zhang, L., Li , Z., Lai, J.Y.L., Hu, H., Ma, T., Hu, R., Yu, D., Huang, X., Tang, B.Z., Yan, H.*.
  “A Tetraphenylethylene Core-Based 3D Structure Small Molecular Acceptor Enabling Efficient Non-Fullerene Organic Solar Cells “.
  Advanced Materials, (2015), 27(6), 1015-1020.

• 47. Tseng, N., Yu, Y., Li, Y., Zhao, J., So, S.K., Yan, H., Ng, K.M.*.
  “Isobenzofulvene-fullerene mono-adducts for organic photovoltaic applications “.
  Journal of Materials Chemistry C, (2015), 3(5), 977-980.

• 46. Qiu, Y., Leung, S., Zhang, Q., Mu, C., Hua, B., Yan, H., Yang, S.*, Fan, Z.*.
  ” Nanobowl optical concentrator for efficient light trapping and high-performance organic photovoltaics “.
  Science Bulletin, (2015), 60(1), 109-115.

2014

• 45. Liu, Y., Zhao, J., Li, Z., Mu, C., Ma, W.*, Hu, H., Jiang, K., Lin, H., Ade, H.*, Yan, H.*.
  “Aggregation and morphology control enables multiple cases of high-efficiency polymer solar cells “.
  Nature Communications, 2014, 5, 5293.

• 44. Mu, C., Liu, P., Ma, W.*, Jiang, K., Zhao, J., Zhang, K., Chen, Z., Wei, Z., Yi, Y., Wang, J., Yang, S., Huang, F.*, Facchetti, A., Ade, H.*, Yan, H.*.
  “High-Efficiency All-Polymer Solar Cells Based on a Pair of Crystalline Low-Bandgap Polymers “.
  Advanced Materials, (2014), 26(42), 7224-7230.

• 43. Zhu, Z., Bai, Y., Lee, H. K. H., Mu, C., Zhang, T., Zhang, L., Wang, J., Yan, H., So, S. K. and Yang, S.*.
  “Polyfluorene Derivatives are High-Performance Organic Hole-Transporting Materials for Inorganic-Organic Hybrid Perovskite Solar Cells “.
  Advanced Functional Materials, (2014), 24(46), 7357–7365.

• 42. Zhang, K., Zhong, C., Liu, S., Mu, C., Li, Z., Yan, H.*, Huang, F.*, Cao, Y..
  “Highly Efficient Inverted Polymer Solar Cells Based on a Cross-linkable Water-/Alcohol-Soluble Conjugated Polymer Interlayer “.
  ACS Applied Material & Interfaces, (2014), 6(13), 10429–10435.

• 41. Schmidt, G.C.*, Höft, D., Haase, K., Hübler, A.C., Karpov, E., Tkachov, R., Stamm, M., Kiriy, A.*, Haidu, F., Zahn, D.R.T., Yan, H., Facchetti, A.. “Naphtalenediimide-based donor–acceptor copolymer prepared by chain-growth catalyst-transfer polycondensation: evaluation of electron-transporting properties and application in printed polymer transistors “.
  Journal of Materials Chemistry C, (2014), 2(26), 5149-5154.

• 40. Zhu, Z., Ma, J., Wang, Z., Mu, C., Fan, Z., Du, L., Bai, Y., Fan, L.*, Yan, H., Phillips, D.L., Yang, S.*.
  “Efficiency Enhancement of Perovskite Solar Cells through Fast Electron Extraction: The Role of Graphene Quantum Dots “.
  Journal of the American Chemical Society, (2014), 136(10), 3760-3763.

2013

• 39. Qiu, J., Qiu, Y., Yan, K., Zhong, M., Mu, C., Yan, H., Yang, S.*.
  “All-solid-state hybrid solar cells based on a new organometal halide perovskite sensitizer and one-dimensional TiO2 nanowire arrays “.
  Nanoscale,(2013), 5(8), 3245-3248.

Publications before joining HKUST

• 38. Lu, S.*, Drees, M., Yao,Y., Boudinet, D., Yan, H., Pan, H., Wang, J., Li, Y., Usta, H., Facchetti A.*.
  “3,6-Dithiophen-2-yl-diketopyrrolo[3,2-b]pyrrole (isoDPPT) as an Acceptor Building Block for Organic Opto-Electronics “.
  Macromolecules, (2013), 46(10), 3895-3906.

• 37. Smaal, W., Kjellander, C., Jeong, Y., Tripathi, A., Putten, B., Facchetti, A., Yan, H., Quinn, J., Anthony, J., Myny, K., Dehaene, W., Gelinck, G.*.
  “Complementary integrated circuits on plastic foil using inkjet printed n- and p-type organic semiconductors: Fabrication, characterization, and circuit analysis “.
  Organic Electronics, (2012), 13(9), 1686-1692.

• 36. Baeg, K., Khim, D., Kim, D.*, Jung, S., Koo, J., You, I., Yan, H., Facchetti, A.*, Noh, Y.*.
  “High speeds complementary integrated circuits fabricated with all-printed polymeric semiconductors “.
  Journal of Polymer Science, Part B: Polymer Physics, (2011), 49(1), 62-67.

• 35. Motiei, L., Yao, Y., Choudhury, J., Yan, H., Marks, T.J.*, van der Boom, M.E.*, Facchetti, A.*.
  “Self-Propagating Molecular Assemblies as Interlayers for Efficient Inverted Bulk-Heterojunction Solar Cells “.
  Journal of the American Chemical Society, (2010), 132(36), 12528-12530.

• 34. Caironi M.*, Newman C., Moore J., Natali D., Yan, H., Facchetti A., Sirringhaus H..
  “Efficient charge injection from a high work function metal in high mobility nn-type polymer field-effect transistors “.
  Applied Physics Letters, (2010), 96, 183303.

• 33. Bagnis, D., Beverina, L., Huang, H., Silvestri F., Yao, Y., Yan, H., Pagani, G.*, Marks T.J.*, Facchetti A.*.
  “Marked Alkyl- vs Alkenyl-Substitutent Effects on Squaraine Dye Solid-State Structure, Carrier Mobility, and Bulk-Heterojunction Solar Cell Efficiency “.
  Journal of the American Chemical Society, (2010), 132(12), 4074-4075.

• 32. Ortiz, R.P.*, Yan, H.*, Facchetti, A.*, Marks, T.J.*. “Azine- and Azole-Functionalized Oligo´ and Polythiophene Semiconductors for Organic Thin-Film Transistors “. Materials, (2010), 3(3), 1533-1558.

• 31. Cheng X., Caironi, M., Noh, Y., Wang J., Newman, C., Yan, H., Facchetti, A.*, Sirringhaus, H.*.
  “Air Stable Cross-Linked Cytop Ultrathin Gate Dielectric for High Yield Low-Voltage Top-Gate Organic Field-Effect Transistors “.
  Chemistry of Materials, (2010), 22(4), 1559-1566.

• 30. Yan, H., Chen, Z., Zheng, Y., Newman, C., Quinn, J., Dötz, F., Kastler, M., Facchetti, A*.
  “A high-mobility electron-transporting polymer for printed transistors “.
  Nature, (2009), 457, 679-686.

• 29. Ng, T.N.*, Sambandan, S., Lujan, R., Arias, A.C., Newman, C.R., Yan, H., Facchetti, A.*.
  “Electrical stability of inkjet-patterned organic complementary inverters measured in ambient conditions “.
  Applied Physics Letters, (2009), 94, 233307.

• 28. Boudinet, D., Le Blevennec, G., Serbutoviez, C., Verilhac, J., Yan, H., Horowitz, G.*.
  “Contact resistance and threshold voltage extraction in nn-channel organic thin film transistors on plastic substrates “.
  Journal of Applied Physics, (2009), 105, 084510.

• 27. Chen, Z., Zheng, Y., Yan, H., Facchetti, A.*.
  “Naphthalenedicarboximide- vs Perylenedicarboximide-Based Copolymers. Synthesis and Semiconducting Properties in Bottom-Gate N-Channel Organic Transistors “.
  Journal of the American Chemical Society, (2009), 131(1), 8-9.

• 26. Yan, H., Zheng, Y., Blache, R., Newman, C., Lu, S., Woerl, J., Facchetti, A*.
  “Solution processed top-gate n-channel transistors and complementary circuits on plastics operating in ambient conditions “.
  Advanced Materials, (2008), 20(18), 3393-3398.

• 25. Yan, H., Lu, S., Zheng Y., Inagaki, P., Facchetti, A., Marks, T.J..
  “High mobility solution-processed n-channel organic thin film transistors “.
  Proceedings of SPIE–the international society for optical engineering, 6333, Organic Field-Effect Transistors VI, 66580S (September 13, 2007).

• 24. Hains, A. W., Martinson, A. B. F., Irwin, M. D., Yan, H., Marks, T.J..
  “Bulk-heterojunction organic solar cells: interfacial engineering routes to increased open-circuit voltage and power conversion efficiency”.
  Poly. Mater. Sci. Engi.,(2007),96, 814-815.

• 23. Yan, H., Facchetti, A., Marks, T.J.
  “Polymer blend dielectrics for organic thin-film-transistors: update on dielectric properties and device performance”.
  Poly. Mater. Sci. Engi.,(2007),96, 335-336.

• 22. Jiang, X., Yan, H., Klingenberg, E.H., Elder, D.L..
  “Enhanced lifetime of polymer light-emitting diodes using poly(thieno[3,4-b]thiophene)-based conductive polymers “.
  Proceedings of SPIE–the international society for optical engineering, 6658, Organic Light Emitting Materials and Devices X, 633304 (December 05, 2006).

• 21. Yang, Y., Wang, L., Yan, H., Jin, S., Marks, T.J.*, Li, S.
  “Highly transparent and conductive double-layer oxide thin films as anodes for organic light-emitting diodes “.
  Applied Physics Letters, (2006), 89, 051116.

• 20. Yan, H., Yoon, M., Facchetti, A., Marks, T.J.*.
  “Organic field-effect transistors based on a crosslinkable polymer blend as the semiconducting layer “.
  Applied Physics Letters, (2005), 87, 183501.

• 19. Yoon, M., Yan, H., Facchetti, A.*, Marks, T.J.*.
  “Low-Voltage Organic Field-Effect Transistors and Inverters Enabled by Ultrathin Cross-Linked Polymers as Gate Dielectrics “.
  Journal of the American Chemical Society, (2005), 127(29), 10388-10395.

• 18. Ni, J., Yan, H., Wang A., Yang, Y., Stern, C.L., Metz, A.W., Jin, S., Wang , L., Marks, T. J.*, Ireland, J.R., Kannewurf, C.R..
  “MOCVD-Derived Highly Transparent, Conductive Zinc- and Tin-Doped Indium Oxide Thin Films:? Precursor Synthesis, Metastable Phase Film Growth and Characterization, and Application as Anodes in Polymer Light-Emitting Diodes “.
  Journal of the American Chemical Society, (2005), 127(15), 5613-5624.

• 17. Ni, J., Wang, L., Yang, Y., Yan, H., Jin, S., Wang , L., Marks, T. J.*, Ireland, J.R., Kannewurf, C.R..
  “Charge Transport and Optical Properties of MOCVD-Derived Highly Transparent and Conductive Mg- and Sn-Doped In2O3 Thin Films “.
  Inorganic Chemistry, (2005), 44(17), 6071-6076.

• 16. Yan, H., Lee, P., Armstrong, N.R., Graham, A., Evmenenko, G.A., Dutta, P., Marks, T.J.*.
  “High-Performance Hole-Transport Layers for Polymer Light-Emitting Diodes. Implementation of Organosiloxane Cross-Linking Chemistry in Polymeric Electroluminescent Devices “.
  Journal of the American Chemical Society, (2005), 127(9), 3172-3183.

• 15. Yan, H., Marks, T.J..
  “Electron-blocking mechanisms at the hole transport layer-emissive layer interface in polymer light-emitting diodes: enhanced device performance with a novel electron-blocking interlayer “.
  Proceedings of SPIE–the international society for optical engineering, 5519, Organic Light-Emitting Materials and Devices VIII, 270 (November 10, 2004).

• 14. Huang, Q., Li, J., Scott, B., Kern, M., Yan, H., Marks, T.J..
  “New polymeric hole transport layer materials applied to indium-tin-oxide anodes by a dipping process”.
  Poly. Mater. Sci. Engi.,(2004), 91, 490-491.

• 13. Yan, H., Scott, B.J., Huang, Q., Marks, T.J.*.
  “Enhanced Polymer Light-Emitting Diode Performance Using a Crosslinked-Network Electron-Blocking Interlayer “.
  Advanced Materials, (2004), 16(21), 1948-1953.

• 12. Yan, H., Huang, Q., Scott, B.J., Marks, T.J.*.
  “A polymer blend approach to fabricating the hole transport layer for polymer light-emitting diodes “.
  Applied Physics Letters, (2004), 84, 3873.

• 11. Yan, H., Huang, Q., Cui, J., Veinot, J.G.C., Kern, M.M., Marks, T.J.*.
  “High-Brightness Blue Light-Emitting Polymer Diodes via Anode Modification Using a Self-Assembled Monolayer “.
  Advanced Materials, (2003), 15(10), 835-838.

• 10. Yan, H., Huang, Q., Cui, J., Veinot, J. G. C., Kern, M., Marks, T.J.
  “Enhancing the performance of blue polymer light-emitting diodes via anode modification with a self-assembled monolayer”.
  Poly. Mater. Sci. Engi.,(2003),89, 208-209.

• 09. Huang, Q., Cui, J., Veinot J.G.C., Yan, H., Marks, T.J.*.
  “Realization of high-efficiency/high-luminance small-molecule organic light-emitting diodes: synergistic effects of siloxane anode functionalization/hole-injection layers, and hole/exciton-blocking/electron-transport layers “.
  Applied Physics Letters, (2003), 82, 331.

• 08. Cui, J., Huang, Q., Veinot, J.C.G., Yan, H., Wang, Q., Hutchison, G.R., Richter, A.G., Evmenenko, G., Dutta, P., Marks, T.J.*.
  “Anode Interfacial Engineering Approaches to Enhancing Anode/Hole Transport Layer Interfacial Stability and Charge Injection Efficiency in Organic Light-Emitting Diodes “.
  Langmuir, (2002), 18(25), 9958-9970.

• 07. Marks, T.J.*, Veinot, J.G.C., Cui, J., Yan, H., Wang, A., Edleman, N.L., Edleman, N.L., Huang, Q., Lee, P., Armstrong, N.R..
  “Progress in high work function TCO OLED anode alternatives and OLED nanopixelation “.
  Synthetic Metals, (2002), 127(1-3), 29-35.

• 06. Huang, Q., Cui, J., Yan, H., Veinot J.G.C., Marks, T.J.*.
  “Small molecule organic light-emitting diodes can exhibit high performance without conventional hole transport layers “.
  Applied Physics Letters, (2002), 81, 3528.

• 05. Cui, J., Huang, Q., Veinot, J, Yan, H., Marks, T.J.*.
  “Interfacial Microstructure Function in Organic Light-Emitting Diodes: Assembled Tetraaryldiamine and Copper Phthalocyanine Interlayers “.
  Advanced Materials, (2002), 14(8), 565-569.

• 04. Veinot, J.G.C., Yan, H., Smith, S.M., Cui, J., Huang, Q., Marks, T.J.*.
  “Fabrication and Properties of Organic Light-Emitting “Nanodiode” Arrays “.
  Nano Letters, (2002), 2(4), 333-335.

• 03. Liu, C., Wang, X,, Gong, Q.*, Tang, K., Jin, X., Yan, H., Cui, P..
  “Nanosecond Optical Limiting Property of a Novel Octanuclear Silver Cluster Complex Containing Arylselenolate Ligands“.
  Advanced Materials, (2001), 13(22), 1687-1690.

• 02. Veinot, J.G.C., Yan, H., Cui, Ji, Marks, T.J..
  “Nanopixelation of organic light-emitting diodes via nanosphere lithography”.
  Polymer Preprint,(2001),42(2), 170-171.

• 01. Tang, K., Jin, X.*, Yan, H., Xie, X.,, Liu, C., Gong, Q.*.
  “Synthesis, crystal structure and optical limiting property of a novel octanuclear silver cluster complex with an aryl selenolate ligand “.
  Journal of the Chemical Society, Dalton Transactions, (2001), 8, 1374-1377.