Junfeng Fang
Junfeng Fang
Verified email at nimte.ac.cn
TitleCited byYear
Highly efficient electron transport obtained by doping PCBM with graphdiyne in planar-heterojunction perovskite solar cells
C Kuang, G Tang, T Jiu, H Yang, H Liu, B Li, W Luo, X Li, W Zhang, F Lu, ...
Nano letters 15 (4), 2756-2762, 2015
Conjugated zwitterionic polyelectrolyte as the charge injection layer for high-performance polymer light-emitting diodes
J Fang, BH Wallikewitz, F Gao, G Tu, C Müller, G Pace, RH Friend, ...
Journal of the American Chemical Society 133 (4), 683-685, 2010
The design and realization of flexible, long‐lived light‐emitting electrochemical cells
J Fang, P Matyba, L Edman
Advanced Functional Materials 19 (16), 2671-2676, 2009
Efficient red organic light-emitting devices based on a europium complex
J Fang, D Ma
Applied physics letters 83 (19), 4041-4043, 2003
Identifying and alleviating electrochemical side-reactions in light-emitting electrochemical cells
J Fang, P Matyba, ND Robinson, L Edman
Journal of the American Chemical Society 130 (13), 4562-4568, 2008
High‐Performance Polymer Solar Cells with PCE of 10.42% via Al‐Doped ZnO Cathode Interlayer
X Liu, X Li, Y Li, C Song, L Zhu, W Zhang, HQ Wang, J Fang
Advanced Materials 28 (34), 7405-7412, 2016
Morphological control for highly efficient inverted polymer solar cells via the backbone design of cathode interlayer materials
W Zhang, Y Wu, Q Bao, F Gao, J Fang
Advanced Energy Materials 4 (12), 1400359, 2014
Improvement of the SiOx Passivation Layer for High-Efficiency Si/PEDOT:PSS Heterojunction Solar Cells
J Sheng, K Fan, D Wang, C Han, J Fang, P Gao, J Ye
ACS applied materials & interfaces 6 (18), 16027-16034, 2014
Naphthothiadiazole‐Based Near‐Infrared Emitter with a Photoluminescence Quantum Yield of 60% in Neat Film and External Quantum Efficiencies of up to 3.9% in Nondoped OLEDs
T Liu, L Zhu, C Zhong, G Xie, S Gong, J Fang, D Ma, C Yang
Advanced Functional Materials 27 (12), 1606384, 2017
Improved efficiency by a fluorescent dye in red organic light-emitting devices based on a europium complex
J Fang, H You, J Gao, D Ma
Chemical physics letters 392 (1-3), 11-16, 2004
Polyelectrolyte based hole-transporting materials for high performance solution processed planar perovskite solar cells
X Li, X Liu, X Wang, L Zhao, T Jiu, J Fang
Journal of Materials Chemistry A 3 (29), 15024-15029, 2015
Fullerene-free organic solar cells with efficiency over 12% based on EDTA–ZnO hybrid cathode interlayer
X Li, X Liu, W Zhang, HQ Wang, J Fang
Chemistry of Materials 29 (10), 4176-4180, 2017
Memory Devices Based on Lanthanide (Sm3+, Eu3+, Gd3+) Complexes
J Fang, H You, J Chen, J Lin, D Ma
Inorganic chemistry 45 (9), 3701-3704, 2006
Interface Modification of ZnO-Based Inverted PTB7:PC71BM Organic Solar Cells by Cesium Stearate and Simultaneous Enhancement of Device Parameters
G Wang, T Jiu, G Tang, J Li, P Li, X Song, F Lu, J Fang
ACS Sustainable Chemistry & Engineering 2 (5), 1331-1337, 2014
A Small‐Molecule Zwitterionic Electrolyte without a π‐Delocalized Unit as a Charge‐Injection Layer for High‐Performance PLEDs
C Min, C Shi, W Zhang, T Jiu, J Chen, D Ma, J Fang
Angewandte Chemie International Edition 52 (12), 3417-3420, 2013
High performance polymer solar cells with a polar fullerene derivative as the cathode buffer layer
X Li, W Zhang, Y Wu, C Min, J Fang
Journal of Materials Chemistry A 1 (40), 12413-12416, 2013
Enhanced photoresponse in solid-state excitonic solar cells via resonant energy transfer and cascaded charge transfer from a secondary absorber
K Driscoll, J Fang, N Humphry-Baker, T Torres, WTS Huck, HJ Snaith, ...
Nano letters 10 (12), 4981-4988, 2010
Efficient and Hysteresis‐Free Perovskite Solar Cells Based on a Solution Processable Polar Fullerene Electron Transport Layer
YC Wang, X Li, L Zhu, X Liu, W Zhang, J Fang
Advanced Energy Materials 7 (21), 1701144, 2017
Understanding the operation of light-emitting electrochemical cells
J Fang, Y Yang, L Edman
Applied Physics Letters 93 (6), 063503, 2008
An efficient electroluminescent (2, 2′-bipyridine mono N-oxide) europium (iii) β-diketonate complex
XH Zhu, LH Wang, J Ru, W Huang, JF Fang, DG Ma
Journal of Materials Chemistry 14 (18), 2732-2734, 2004
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