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Si Hybrid Solar Cells with 13 Efficiency via Concurrent Improvement in Optical and Electrical Properties by Employing Graphene Quantum Dots

机译：通过同时利用石墨烯量子点改善光和电性能，使硅混合太阳能电池的效率提高13％

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By employing graphene quantum dots (GQDs) in PEDOT:PSS, we have achieved an efficiency of 13.22% in Si/PEDOT:PSS hybrid solar cells. The efficiency enhancement is based on concurrent improvement in optical and electrical properties by the photon downconversion process and the improved conductivity of PEDOT:PSS via appropriate incorporation of GQDs. After introducing GQDs into PEDOT:PSS, the short circuit current and the fill factor of rear-contact optimized hybrid cells are increased from 32.11 to 36.26 mA/cm and 62.85% to 63.87%, respectively. The organic-inorganic hybrid solar cell obtained herein holds the promise for developing photon-managing, low-cost, and highly efficient photovoltaic devices.

机译：通过在PEDOT：PSS中使用石墨烯量子点（GQD），我们在Si / PEDOT：PSS混合太阳能电池中实现了13.22％的效率。效率的提高是基于通过光子下转换过程同时改善了光学和电学性能，以及通过适当掺入GQD来提高PEDOT：PSS的电导率。在将GQD引入PEDOT：PSS之后，后接触优化混合电池的短路电流和填充因子分别从32.11增至36.26 mA / cm和62.85％增至63.87％。本文获得的有机-无机混合太阳能电池有望用于开发光子管理，低成本和高效的光伏器件。

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Tsai Meng Lin; Wei Wan-Rou; Tang Libin; Chang Hung Chih; Tai Shih Hsiang; Yang Po Kang; Lau Shu Ping; Chen Lih Juann; He Jr-Hau;
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1. Si Hybrid Solar Cells with 13% Efficiency via Concurrent Improvement in Optical and Electrical Properties by Employing Graphene Quantum Dots [J] . Tsai Meng -Lin, Wei Wan-Rou, Tang Libin, ACS nano . 2016,第1期

机译：通过同时利用石墨烯量子点改善光和电性能，使硅混合太阳能电池的效率提高13％
2. Porous silicon solar cells with 13.66% efficiency achieved by employing graphene-quantum-dots interfacial layer, doped-graphene electrode, and bathocuproine back-surface passivation layer [J] . Jang Chan Wook, Shin Dong Hee, Choi Suk-Ho Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

机译：多孔硅太阳能电池具有13.66％的效率，通过使用石墨烯 - 量子点界面层，掺杂 - 石墨烯电极和浴缸外背面钝化层实现
3. Toward high efficiency of inverted organic solar cells: Concurrent improvement in optical and electrical properties of electron transport layers [J] . S. H. Tsai, S. T. Ho, H. J. Jhuo, Applied Physics Letters . 2013,第25期

机译：朝着高效率的倒置有机太阳能电池迈进：同时改善电子传输层的光学和电学性质
4. Efficiency improvement employing CdTe quantum dots and Ag/Au nanoalloys on c-silicon solar cells [C] . Ayon A., Tronco-Jurado U., Lopez-Delgado R., IEEE Photovoltaic Specialists Conference . 2015

机译：在C硅太阳能电池上使用CdTe量子点和Ag / Au纳米合金提高效率
5. Optical Properties of Solar Cells Based on Zinc(hydr)oxide and its Composite with Graphite oxide Sensitized by Quantum Dots. [D] . Islam, S. M. Zakirul. 2014

机译：基于量子点敏化的氢氧化锌及其与氧化石墨复合的太阳能电池的光学性能。
6. Enhanced conversion efficiency in Si solar cells employing photoluminescent down-shifting CdSe/CdS core/shell quantum dots [O] . R. Lopez-Delgado, Y. Zhou, A. Zazueta-Raynaud, -1

机译：使用光致发光下移CdSe / CdS核/壳量子点的Si太阳能电池的转换效率提高
7. Si Hybrid solar cells with 13 efficiency via concurrent improvement in optical and electrical properties by employing graphene quantum dots [O] . Tsai ML, Wei WR, Tang LB, 2016

机译：通过使用石墨烯量子点同时提高光学和电学性能，可将硅混合太阳能电池的效率提高13％
8. Silicon Solar Cell Efficiency Improvement Employing the Photoluminescent, Down-Shifting Effects of Carbon and CdTe Quantum Dots (Open Access Publisher's Version). [R] . Pelayo, E., Zazueta, A., Lopez, R., 2016

机译：采用碳和CdTe量子点的光致发光，向下移动效应的硅太阳能电池效率改进（Open access publisher的版本）。

Si Hybrid Solar Cells with 13 Efficiency via Concurrent Improvement in Optical and Electrical Properties by Employing Graphene Quantum Dots

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