An energy-harvesting scheme employing CuGaSe2 quantum dot-modified ZnO buffer layers for drastic conversion efficiency enhancement in inorganic-organic hybrid solar cells

Cherng-Rong Ho; Meng-Lin Tsai; Hung-Jun Jhuo

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An energy-harvesting scheme employing CuGaSe2 quantum dot-modified ZnO buffer layers for drastic conversion efficiency enhancement in inorganic-organic hybrid solar cells

机译：一个用人CuGaSe2能量采集方案量子dot-modified氧化锌缓冲层大幅提高转换效率无机杂化太阳能电池

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We demonstrated a promising route to enhance the performance of inverted organic photovoltaic (OPV) devices by the incorporation of CuGaSe2 (CGS) quantum dots (QDs) into the ZnO buffer layer of P3HT:PCBM-based devices. The modification of QDs provides better band alignment between the organic/ cathode interface, improves ZnO crystal quality, and increases photon absorption, leading to more effective carrier transport/collection. By employing this energy-harvesting scheme, short-circuit current density, open-circuit voltage, and fill factor of the OPV device after CGS QD modification are improved by 9.43%, 7.02% and 6.31 %, respectively, giving rise to a 23.8% enhancement in the power conversion efficiency.

机译：我们展示了一个有前途的途径提高倒有机光伏的性能(口服脊髓灰质炎疫苗)设备CuGaSe2整合(CGS)量子点(量子点)到氧化锌缓冲层P3HT: PCBM-based设备。量子点的修改提供了更好的乐队有机/阴极界面之间的一致性,提高氧化锌晶体质量和增加光子吸收,导致更有效航空运输/集合。能量采集方案,短路电流密度、开路电压和填充因子CGS QD改性后口服脊髓灰质炎疫苗的设备提高了9.43%、7.02%和6.31%,分别,增强23.8%功率转换效率。

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来源
《Nanoscale》 |2013年第14期|6350-6355|共6页
作者
Cherng-Rong Ho; Meng-Lin Tsai; Hung-Jun Jhuo;
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作者单位

Institute of Photonics and Optoelectronics, and Department of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

Department of Chemical Engineering, National Tsing Hua University, Hsinchu, Taiwan;

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正文语种英语
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关键词
Power Conversion Efficiency; Photon absorption; Refractive surgery enhancementEMPLOYMENTenergy harvestingConversion efficiencyzinc oxidesBuffer layers;

机译：功率转换效率;光子吸收;屈光手术enhancementEMPLOYMENTenergy harvestingConversionefficiencyzinc oxidesBuffer层;

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An energy-harvesting scheme employing CuGaSe2 quantum dot-modified ZnO buffer layers for drastic conversion efficiency enhancement in inorganic-organic hybrid solar cells

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