Enhancement of low energy sunlight harvesting in dye-sensitized solar cells using plasmonic gold nanorods

Shuai Chang; Quan Li; Xudong Xiao; King Young Wong; Tao Chen

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Enhancement of low energy sunlight harvesting in dye-sensitized solar cells using plasmonic gold nanorods

机译：使用等离激元金纳米棒增强染料敏化太阳能电池中低能阳光的收集

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This communication describes the use of Ag_2S-encapsulated Au nanorods (AuNR@Ag_2S) to enhance longer wavelength sunlight utility in dye-sensitized solar cells (DSSCs). We observed that the longitudinal plasmon resonance of AuNRs induces a remarkable increase of 37.6% in photocurrent generation at 600-720 nm. Optical characterizations indicate that the increased optical density and decreased light transmission as a result of AuNRs incorporation engender the striking improvement. With AuNR@Ag_2S, the final power conversion efficiency (PCE) of the DSSC with a thin anode (6 μm) increases from 4.3% to 5.6%, which is comparable to that of a pure TiO_2 anode based DSSC (5.8%) with a film thickness of 11 μm. Further, incorporation of AuNR@Ag_2S into the thick anode leads to the PCE increasing to 7.1%.

机译：该通讯介绍了使用Ag_2S封装的Au纳米棒（AuNR @ Ag_2S）来增强染料敏化太阳能电池（DSSC）中较长波长的阳光效用。我们观察到，AuNRs的纵向等离振子共振在600-720 nm的光电流产生中引起37.6％的显着增加。光学特征表明，由于掺入AuNRs，增加的光密度和降低的透光率带来了惊人的改善。使用AuNR @ Ag_2S，具有薄阳极（6μm）的DSSC的最终功率转换效率（PCE）从4.3％提高到5.6％，这与具有TiO2阳极的纯TiO_2阳极基DSSC的最终功率转换效率（5.8％）相当。膜厚为11μm。此外，将AuNR @ Ag_2S掺入厚阳极导致PCE增加到7.1％。

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《Energy & environmental science》 |2012年第11期|p.9444-9448|共5页
作者
Shuai Chang; Quan Li; Xudong Xiao; King Young Wong; Tao Chen;
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Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong, China;

Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong, China;

Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong, China;

Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong, China;

Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong, China;

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Enhancement of low energy sunlight harvesting in dye-sensitized solar cells using plasmonic gold nanorods

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