| High-Efficiency Polymer Homo-Tandem Solar Cells with Carbon Quantum-Dot-Doped Tunnel Junction Intermediate Layer | |||||
| 작성자 | 김** | 작성일 | 2019-07-29 | 조회수 | 40 |
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Journal Article published Apr 2018 in Advanced Energy Materials volume 8 issue 10 on page 1702165
Research funded by National Research Foundation of Korea (2017R1A2B40035832015R1A1A3A040014372009-00938182014R1A4A1071686) | Ministry of Science, ICT and Future Planning
AbstractThe tunnel junction (TJ) intermediate connection layer (ICL), which is the most critical component for high?efficient tandem solar cell, generally consists of hole conducting layer and polyethyleneimine (PEI) polyelectrolyte. However, because of the nonconducting feature of pristine PEI, photocurrent is open?restricted in ICL even with a little thick PEI layer. Here, high?efficiency homo?tandem solar cells are demonstrated with enhanced efficiency by introducing carbon quantum dot (CQD)?doped PEI on TJ?ICL. The CQD?doped PEI provides substantial dynamic advantages in the operation of both single?junction solar cells and homo?tandem solar cells. The inclusion of CQDs in the PEI layer leads to improved electron extraction property in single?junction solar cells and better series connection in tandem solar cells. The highest efficient solar cell with CQD?doped PEI layer in between indium tin oxide (ITO) and photoactive layer exhibits a maximum power conversion efficiency (PCE) of 9.49%, which represents a value nearly 10% higher than those of solar cells with pristine PEI layer. In the case of tandem solar cells, the highest performing tandem solar cell fabricated with C?dot?doped PEI layer in ICL yields a PCE of 12.13%; this value represents an ?15% increase in the efficiency compared with tandem solar cells with a pristine PEI layer. |
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