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Broad-band absorption enhancement in lower absorption coefficient region in CZTS solar cells with embedded aluminum nanoparticles into absorber layer

机译：铝纳米粒子嵌入吸收层的CZTS太阳能电池较低吸收系数区域的宽带吸收增强

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Finite-difference-time-domain (FDTD) electromagnetic calculations are performed fora CZTS solar cell with embedded 100 nm aluminum (Al) nanoparticles (NPs) in the absorber layer. We predict significantly enhanced absorption for wavelengths where absorption is intrinsically low. Overall, over 17% enhancementis predicted in absorbed photon flux and (maximum attainable) current density below the absorber band gap. These are due to near-field enhancement by localized surface plasmon resonance (LSPR) and far-field enhancement by scattering from Al NPs. The increase in absorbed photon flux is explained through Mie scattering calculations in Lumerical FDTD.

机译：有限差分时域（FDTD）电磁计算是针对在吸收层中嵌入100 nm铝（Al）纳米粒子（NPs）的CZTS太阳能电池进行的。我们预测吸收率本质上较低的波长的吸收率会大大提高。总体而言，在吸收带隙以下，预计吸收的光子通量和（最大可达到的）电流密度将提高17％以上。这些是由于局部表面等离子体共振（LSPR）引起的近场增强和Al NPs散射引起的远场增强。通过Lumerical FDTD中的Mie散射计算可以解释吸收的光子通量的增加。

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《IEEE Photovoltaic Specialists Conference》|2015年|1-4|共4页
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Mopurisetty Sundara Murthy; Ananthoju Balakrishna; Bajaj Mohit; Aslam M.; Ganguly Swaroop;
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Absorption; Finite difference methods; Gallium arsenide; Optical films; Optical reflection; Optical scattering; Time-domain analysis; Absorber layer; Al nanoparticles; CZTS; FDTD; LSPR; Mie scattering; far-field; near-field; scattering;

机译：吸收有限差分法;砷化镓;光学膜;光学反射;光学散射;时域分析;吸收层Al纳米颗粒; CZTS; FDTD; LSPR;三重散射远处的荒（田）野;近场;散射;

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1. Enhanced optical absorption and electrical performance of silicon solar cells due to embedding of dielectric nanoparticles and voids in the active absorber region [J] . Das S., Kundu A., Saha H., Journal of Modern Optics . 2013,第6a7期

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2. Light Absorption Enhancement in Organic Solar Cell by Embedding Ag Nanoparticles and Nanochains within the Active Layer [J] . Sheng-QingZhu, TongZhang, Xin-LiGuo, Journal of nanomaterials . 2014,第1期

机译：通过将银纳米粒子和纳米链嵌入有源层中来增强有机太阳能电池的光吸收
3. Enhanced Visible Light Absorption by 3C-SiC Nanoparticles Embedded in Si Solar Cells by Plasma-Enhanced Chemical Vapor Deposition [J] . Bhaskar Parida, Jaeho Choi, Gyoungho Lim, Journal of nanomaterials . 2013,第Pta7期

机译：通过等离子体增强化学气相沉积法将嵌入硅太阳能电池中的3C-SiC纳米粒子增强的可见光吸收能力
4. Broad-band absorption enhancement in lower absorption coefficient region in CZTS solar cells with embedded Aluminum nanoparticles into absorber layer [C] . Sundara Murthy Mopurisetty, Balakrishna Ananthoju, Mohit Bajaj, IEEE Photovoltaic Specialist Conference . 2015

机译：将嵌入式铝纳米粒子中的CZTS太阳能电池中较低吸收系数区域的宽带吸收增强
5. Kesterite thin-film solar cell absorbers derived using inhomogeneous CZTS nanoparticles [D] . Yang, Wei-Chang D. 2015

机译：kesterite薄膜太阳能电池吸收剂使用不均匀的CZT纳米粒子衍生
6. Enhancing Output Power of Textured Silicon Solar Cells by Embedding Indium Plasmonic Nanoparticles in Layers within Antireflective Coating [O] . Wen-Jeng Ho, Jheng-Jie Liu, Yun-Chieh Yang, 2018

机译：通过将铟等离子纳米粒子嵌入抗反射涂层内的层中来增强纹理化硅太阳能电池的输出功率
7. Light Absorption Enhancement in Organic Solar Cell by Embedding Ag Nanoparticles and Nanochains within the Active Layer [O] . Sheng-Qing Zhu, Tong Zhang, Xin-Li Guo, 2014

机译：通过在活性层内嵌入Ag纳米颗粒和纳米中的有机太阳能电池中的光吸收增强

Broad-band absorption enhancement in lower absorption coefficient region in CZTS solar cells with embedded aluminum nanoparticles into absorber layer

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