Broadband enhancement of dielectric light trapping nanostructure used in ultra-thin solar cells

Dong Yang; Zhaopeng Xu; Fei Bian; Haiyan Wang; Jiazhuang Wang; Lu Sun

首页> 外文期刊>Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter >Broadband enhancement of dielectric light trapping nanostructure used in ultra-thin solar cells

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Broadband enhancement of dielectric light trapping nanostructure used in ultra-thin solar cells

机译：超薄太阳能电池中使用的介电光俘获纳米结构的宽带增强

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Abstract

A dielectric fishnet nanostructure is designed to increase the light trapping capability of ultra-thin solar cells. The complex performance of ultra-thin cells such as the optical response and electrical response are fully quantified in simulation through a complete optoelectronic investigation. The results show that the optimized light trapping nanostructure can enhances the electromagnetic resonance in active layer then lead to extraordinary enhancement of both absorption and light-conversion capabilities in the solar cell. The short-circuit current density increases by 49.46% from 9.40 mA/cm2to 14.05 mA/cm2and light-conversion efficiency increases by 51.84% from 9.51% to 14.44% compared to the benchmark, a solar cell with an ITO-GaAs-Ag structure.

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介电鱼网纳米结构设计用于增加超薄太阳能电池的光捕获能力。通过完全光电调查，在模拟中完全量化超薄电池的复杂性能，例如光学响应和电响应。结果表明，优化的光捕获纳米结构可以增强活性层中的电磁共振，然后导致太阳能电池中吸收和光转化能力的非凡提高。短路电流密度从9.40 mA / cm 2 到14.05 mA / cm 2 和光转换效率与具有ITO-GaAs-AG结构的太阳能电池相比，从9.51％增加51.84％至14.44％。 ]]>

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来源
《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2018年第2018期|共5页
作者
Dong Yang; Zhaopeng Xu; Fei Bian; Haiyan Wang; Jiazhuang Wang; Lu Sun;
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作者单位

School of Information Science and Engineering The Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province Yanshan University;

School of Information Science and Engineering The Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province Yanshan University;

School of Information Science and Engineering The Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province Yanshan University;

Key Laboratory of Applied Chemistry Department of Applied Chemistry Yanshan University;

School of Information Science and Engineering The Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province Yanshan University;

School of Information Science and Engineering The Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province Yanshan University;

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原文格式 PDF
正文语种 eng
中图分类光学;
关键词
Solar cells; Nanostructures; Light trapping; Anti-reflection coating;

机译：太阳能电池;纳米结构;轻俘获;抗反射涂层;

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1. Broadband enhancement of dielectric light trapping nanostructure used in ultra-thin solar cells [J] . Dong Yang, Zhaopeng Xu, Fei Bian, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2018,第期

机译：超薄太阳能电池中使用的介电光俘获纳米结构的宽带增强
2. Broadband and wide-angle light harvesting by ultra-thin silicon solar cells with partially embedded dielectric spheres [J] . Yang Zhenhai, Shang Aixue, Qin Linling, Optics Letters . 2016,第7期

机译：具有部分嵌入的介电球的超薄硅太阳能电池进行宽带和广角光收集
3. Broadband and wide-angle light harvesting by ultra-thin silicon solar cells with partially embedded dielectric spheres [J] . Yang Zhenhai, Shang Aixue, Qin Linling, Optics Letters . 2016,第7期

机译：具有部分嵌入的介电球的超薄硅太阳能电池进行宽带和广角光收集
4. Dielectric nanostructures for broadband light trapping in organic solar cells [C] . Raman Aaswath, Yu Zongfu, Fan Shanhui 2011 Conference on lasers and electro-optics . 2011

机译：用于有机太阳能电池中宽带光捕获的介电纳米结构
5. Development of Wrinkled Surface for Enhanced Light Trapping in Organic Solar Cells [D] . Steward, Malia. 2018

机译：有机太阳能电池增强光捕获的皱纹表面的研制
6. Effects of Plasmonic Metal Core -Dielectric Shell Nanoparticles on the Broadband Light Absorption Enhancement in Thin Film Solar Cells [O] . Peng Yu, Yisen Yao, Jiang Wu, -1

机译：等离子体金属核-介电壳纳米粒子对薄膜太阳能电池宽带光吸收增强的影响
7. Broadband absorption enhancement in ultra-thin crystalline Si solar cells by incorporating metallic and dielectric nanostructures in the back reflector [O] . Samarth Jain, Valerie Depauw, Vladimir D. Miljkovic, 2014

机译：通过在后反射器中加入金属和介电纳米结构来宽带吸收提高超薄晶体Si太阳能电池
8. Ultra-thin, light-trapping silicon solar cells [R] . Landis, Geoffrey A. 1989

机译：超薄，光阱硅太阳能电池

Broadband enhancement of dielectric light trapping nanostructure used in ultra-thin solar cells

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