Semiconductor hierarchically structured flower-like clusters for dye-sensitized solar cells with nearly 100% charge collection efficiency

Xukai Xin; Hsiang-Yu Liu; Meidan Ye

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Semiconductor hierarchically structured flower-like clusters for dye-sensitized solar cells with nearly 100% charge collection efficiency

机译：半导体等级结构色素增感太阳能如花似玉的集群负责收集细胞近100%效率

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摘要

By combining the ease of producing ZnO nanoflowers with the advantageous chemical stability of TiO2, hierarchically structured hollow TiO2 flower-like clusters were yielded via chemical bath deposition (CBD) of ZnO nanoflowers, followed by their conversion into TiO2 flower-like clusters in the presence of TiO2 precursors. The effects of ZnO precursor concentration, precursor amount, and reaction time on the formation of ZnO nanoflowers were systematically explored. Dye-sensitized solar cells fabricated by utilizing these hierarchically structured ZnO and TiO2 flower clusters exhibited a power conversion efficiency of 1.16% and 2.73%, respectively, under 100 mW cm~(-2) illumination. The intensity modulated photocurrent/photovoltage spectroscopy (IMPS/IMVS) studies suggested that flower-like structures had a fast electron transit time and their charge collection efficiency was nearly 100%.

机译：通过结合生产氧化锌nanoflowers的缓解二氧化钛的有利的化学稳定性,分层次结构空心二氧化钛枯萎集群通过化学浴了沉积(CBD)的氧化锌nanoflowers,紧随其后的是他们转换成二氧化钛如花似玉集群在二氧化钛前驱的存在。氧化锌的前体浓度、前体,和反应时间对氧化锌的形成nanoflowers系统地探讨。涂料生产的太阳能电池利用这些分层结构氧化锌和二氧化钛的串串展出权力转换效率分别为1.16%和2.73%,在100 mW厘米~(2)照明。调制光电流/光电压谱(小鬼/ IMVS)研究表明,枯萎结构有一个快速电子渡越时间他们几乎是电荷收集效率100%.

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来源
《Nanoscale》 |2013年第22期|11220-11226|共7页
作者
Xukai Xin; Hsiang-Yu Liu; Meidan Ye;
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作者单位

Department of Materials Science and Engineering, University of Delaware, Newark, DE19716, USA;

State Key Laboratory of Physical Chemistry of Solid Surfaces, and Department of Chemistry, College of Chemistry and Chemical Engineering, Xiamen University, Xiamen 361005, China;

School of Materials Science and Engineering, Georgia Institute ofTechnology, Atlanta, GA 30332, USA.;

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正文语种英语
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关键词
Power Conversion Efficiency; collection efficiency; Dye-sensitized solar cellsDigestionTRANSIT TIMENanoflowersClusterszinc oxidesReaction Time;

机译：功率转换效率;收集色素增感太阳能效率;cellsDigestionTRANSIT TIMENanoflowersClusterszincoxidesReaction时间;

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Semiconductor hierarchically structured flower-like clusters for dye-sensitized solar cells with nearly 100% charge collection efficiency

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