Wan Ki Bae
Wan Ki Bae
Sungkyunkwan University
No verified email
Cited by
Cited by
Bright and efficient full-color colloidal quantum dot light-emitting diodes using an inverted device structure
J Kwak, WK Bae, D Lee, I Park, J Lim, M Park, H Cho, H Woo, DY Yoon, ...
Nano letters 12 (5), 2362-2366, 2012
Single-step synthesis of quantum dots with chemical composition gradients
WK Bae, K Char, H Hur, S Lee
Chemistry of Materials 20 (2), 531-539, 2008
Controlling the influence of Auger recombination on the performance of quantum-dot light-emitting diodes
WK Bae, YS Park, J Lim, D Lee, LA Padilha, H McDaniel, I Robel, C Lee, ...
Nature communications 4 (1), 1-8, 2013
Spectroscopic and device aspects of nanocrystal quantum dots
JM Pietryga, YS Park, J Lim, AF Fidler, WK Bae, S Brovelli, VI Klimov
Chemical reviews 116 (18), 10513-10622, 2016
Controlled alloying of the core–shell interface in CdSe/CdS quantum dots for suppression of Auger recombination
WK Bae, LA Padilha, YS Park, H McDaniel, I Robel, JM Pietryga, ...
ACS nano 7 (4), 3411-3419, 2013
Highly efficient green‐light‐emitting diodes based on CdSe@ ZnS quantum dots with a chemical‐composition gradient
WK Bae, J Kwak, JW Park, K Char, C Lee, S Lee
Advanced Materials 21 (17), 1690-1694, 2009
Highly efficient cadmium-free quantum dot light-emitting diodes enabled by the direct formation of excitons within InP@ ZnSeS quantum dots
J Lim, M Park, WK Bae, D Lee, S Lee, C Lee, K Char
ACS nano 7 (10), 9019-9026, 2013
Multicolored light-emitting diodes based on all-quantum-dot multilayer films using layer-by-layer assembly method
WK Bae, J Kwak, J Lim, D Lee, MK Nam, K Char, C Lee, S Lee
Nano letters 10 (7), 2368-2373, 2010
Highly effective surface passivation of PbSe quantum dots through reaction with molecular chlorine
WK Bae, J Joo, LA Padilha, J Won, DC Lee, Q Lin, W Koh, H Luo, ...
Journal of the American Chemical Society 134 (49), 20160-20168, 2012
InP@ ZnSeS, core@ composition gradient shell quantum dots with enhanced stability
J Lim, WK Bae, D Lee, MK Nam, J Jung, C Lee, K Char, S Lee
Chemistry of Materials 23 (20), 4459-4463, 2011
Influence of Shell Thickness on the Performance of Light‐Emitting Devices Based on CdSe/Zn1‐XCdXS Core/Shell Heterostructured Quantum Dots
J Lim, BG Jeong, M Park, JK Kim, JM Pietryga, YS Park, VI Klimov, C Lee, ...
Advanced Materials 26 (47), 8034-8040, 2014
Gram-Scale One-Pot Synthesis of Highly Luminescent Blue Emitting Cd1−xZnxS/ZnS Nanocrystals
WK Bae, MK Nam, K Char, S Lee
Chemistry of Materials 20 (16), 5307-5313, 2008
Flexible supercapacitor electrodes based on real metal-like cellulose papers
Y Ko, M Kwon, WK Bae, B Lee, SW Lee, J Cho
Nature communications 8 (1), 1-11, 2017
Carrier multiplication in semiconductor nanocrystals: influence of size, shape, and composition
LA Padilha, JT Stewart, RL Sandberg, WK Bae, WK Koh, JM Pietryga, ...
Accounts of chemical research 46 (6), 1261-1269, 2013
Auger recombination of biexcitons and negative and positive trions in individual quantum dots
YS Park, WK Bae, JM Pietryga, VI Klimov
ACS nano 8 (7), 7288-7296, 2014
Effect of the core/shell interface on Auger recombination evaluated by single-quantum-dot spectroscopy
YS Park, WK Bae, LA Padilha, JM Pietryga, VI Klimov
Nano letters 14 (2), 396-402, 2014
R/G/B/natural white light thin colloidal quantum dot‐based light‐emitting devices
WK Bae, J Lim, D Lee, M Park, H Lee, J Kwak, K Char, C Lee, S Lee
Advanced Materials 26 (37), 6387-6393, 2014
Quantum Dot− Block Copolymer Hybrids with Improved Properties and Their Application to Quantum Dot Light-Emitting Devices
M Zorn, WK Bae, J Kwak, H Lee, C Lee, R Zentel, K Char
Acs Nano 3 (5), 1063-1068, 2009
Perspective on synthesis, device structures, and printing processes for quantum dot displays
J Lim, WK Bae, J Kwak, S Lee, C Lee, K Char
Optical Materials Express 2 (5), 594-628, 2012
Aspect ratio dependence of auger recombination and carrier multiplication in PbSe nanorods
LA Padilha, JT Stewart, RL Sandberg, WK Bae, WK Koh, JM Pietryga, ...
Nano letters 13 (3), 1092-1099, 2013
The system can't perform the operation now. Try again later.
Articles 1–20