Franky So
Franky So
Walter and Ida Freeman Distinguished Professor, Department of Materials Science and Engineering
Verified email at - Homepage
Cited by
Cited by
High-efficiency inverted dithienogermole–thienopyrrolodione-based polymer solar cells
CE Small, S Chen, J Subbiah, CM Amb, SW Tsang, TH Lai, JR Reynolds, ...
Nature Photonics 6 (2), 115-120, 2012
Dithienogermole as a fused electron donor in bulk heterojunction solar cells
CM Amb, S Chen, KR Graham, J Subbiah, CE Small, F So, JR Reynolds
Journal of the American Chemical Society 133 (26), 10062-10065, 2011
Degradation mechanisms in small‐molecule and polymer organic light‐emitting diodes
F So, D Kondakov
Advanced Materials 22 (34), 3762-3777, 2010
Solution‐processed nickel oxide hole transport layers in high efficiency polymer photovoltaic cells
JR Manders, SW Tsang, MJ Hartel, TH Lai, S Chen, CM Amb, ...
Advanced Functional Materials 23 (23), 2993-3001, 2013
Passivation of organic devices
TB Harvey III, SQ Shi, F So
US Patent 5,686,360, 1997
Low-voltage, low-power, organic light-emitting transistors for active matrix displays
MA McCarthy, B Liu, EP Donoghue, I Kravchenko, DY Kim, F So, ...
Science 332 (6029), 570-573, 2011
Organic light-emitting devices for solid-state lighting
F So, J Kido, P Burrows
MRS bulletin 33 (7), 663-669, 2008
Passivated organic device having alternating layers of polymer and dielectric
TB Harvey III, SQ Shi, F So
US Patent 5,757,126, 1998
Metal oxides for interface engineering in polymer solar cells
S Chen, JR Manders, SW Tsang, F So
Journal of Materials Chemistry 22 (46), 24202-24212, 2012
High‐efficiency solution‐processed planar perovskite solar cells with a polymer hole transport layer
D Zhao, M Sexton, HY Park, G Baure, JC Nino, F So
Advanced Energy Materials 5 (6), 1401855, 2015
Passivation of electroluminescent organic devices
SQ Shi, F So, TB Harvey III
US Patent 5,811,177, 1998
Passivation of organic devices
TB Harvey III, F So
US Patent 5,771,562, 1998
Quasi‐epitaxial growth of organic multiple quantum well structures by organic molecular beam deposition
FF So, SR Forrest, YQ Shi, WH Steier
Applied physics letters 56 (7), 674-676, 1990
Evidence for exciton confinement in crystalline organic multiple quantum wells
FF So, SR Forrest
Physical review letters 66 (20), 2649, 1991
Active driven LED matrices
CL Shieh, HC Lee, F So
US Patent 5,748,160, 1998
Organic electronics: materials, processing, devices and applications
F So
CRC press, 2009
A systematic study on efficiency enhancements in phosphorescent green, red and blue microcavity organic light emitting devices
C Xiang, W Koo, F So, H Sasabe, J Kido
Light: Science & Applications 2 (6), e74-e74, 2013
Organic light-emitting diodes with a bipolar transport layer
VE Choong, S Shi, J Curless, CL Shieh, HC Lee, F So, J Shen, J Yang
Applied Physics Letters 75 (2), 172-174, 1999
Effects of triplet energies and transporting properties of carrier transporting materials on blue phosphorescent organic light emitting devices
J Lee, N Chopra, SH Eom, Y Zheng, J Xue, F So, J Shi
Applied Physics Letters 93 (12), 348, 2008
Highly efficient white organic light-emitting diode
BC Krummacher, VE Choong, MK Mathai, SA Choulis, F So, F Jermann, ...
Applied Physics Letters 88 (11), 113506, 2006
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