| 1 |
유기태양전지의 전자 받개 물질들
공재민, 남상용
Applied Chemistry for Engineering, 33(2), 119, 2022 |
| 2 |
Improved exciton dissociation efficiency by a carbon-quantum-dot doped workfunction modifying layer in polymer solar cells
Park S, Lee H, Park SW, Kim TE, Park SH, Jung YK, Cho S
Current Applied Physics, 21, 140, 2021 |
| 3 |
New 3,8-difluoro indoloindole-based copolymers for organic solar cell
Lee GS, Shin HJ, Shome S, Park JH, Ko SJ, Choi H, Kim YH
International Journal of Energy Research, 45(5), 7806, 2021 |
| 4 |
Design and synthesis of the quinacridone-based donor polymers for application to organic solar cells
Kim DH, Jeon SJ, Han YW, Kim YH, Yang NG, Lee HS, Moon DK
Journal of Industrial and Engineering Chemistry, 101, 135, 2021 |
| 5 |
Fullerene-Based Photoactive A-D-A Triads for Single-Component Organic Solar Cells: Incorporation of Non-Fused Planar Conjugated Core
Lee YW, Yeop JW, Kim JY, Woo HY
Macromolecular Research, 29(12), 871, 2021 |
| 6 |
Recent progress in emerging 2D layered materials for organic solar cells
Zhao Y, Yu LM, Sun ML
Solar Energy, 218, 621, 2021 |
| 7 |
A solution-processed, ultraviolet-irradiation-derived WO3 film as anode interface layer for high-performance non-fullerene organic solar cells
Zhan T, Ren P, Huang XF, Zhang XY, Chen GT, Xiong J, Xue XG, Cai P, Zhang J, Chen JW
Solar Energy, 216, 211, 2021 |
| 8 |
Inverted PTB7-Th:PC71BM organic solar cells with 11.8% PCE via incorporation of gold nanoparticles in ZnO electron transport layer
Usmani B, Ranjan R, Prateek, Gupta SK, Gupta RK, Nalwa KS, Garg A
Solar Energy, 214, 220, 2021 |
| 9 |
The improved performance of BHJ organic solar cells by random dispersed metal nanoparticles through the active layer
Piralaee M, Ebrahimpour Z, Asgari A
Current Applied Physics, 20(4), 531, 2020 |
| 10 |
Benzoselenadiazole-core asymmetricD-A-Asmall molecule for solution processed bulk heterojunction organic solar cells
Abdullah, Kim EB, Akhtar MS, Shin HS, Ameen S
International Journal of Energy Research, 44(14), 12100, 2020 |
