Publications – Prof Henry Yan's Research Group

2022

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

2020

- 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

- 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

- 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.; Pale_ek, 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

2018

124. 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, (2018)
DOI: 0.1016/j.nanoen.2018.10.058

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.*.
“High‐Performance Wide Bandgap Copolymers Using an EDOT Modified Benzodithiophene Donor Block with 10.11% EfficiencyEfficient 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.