Enhanced Light Scattering with Energy Downshifting Using 16 nm Indium Nitride Nanoparticles for Improved Thin-film a-Si N-i-P Solar Cells

机译：使用16 nm氮化铟纳米粒子的能量降档增强的光散射，用于改进的薄膜a-Si N-i-P太阳能电池

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In this work the effect of Indium nitride (InN) nanoparticles (NPs) on the performance of a-Si:H solar cells has been investigated. The average J_(sc) of InN NPs coated cells was found 6.76 mA/cm~2 which is 16.69% higher than the average J_(sc) of the reference cell which was 5.79 mA/cm~2. Average efficiency of InN NPs coated cells showed 14.16% increase from 3.32% to 3.79%. Peak EQE has increased from 44.8% at 500 nm to 51.67% at 510 nm and peak IQE has increased from 51.70% at 510 nm to 68.38% at 500 nm for InN NPs coated cell. Further study shows that EQE change is larger between 510 nm-700 nm compared to IQE change indicting a surface scattering mechanism that reduces the reflectivity. However, between 400 nm-510 nm IQE change is larger than EQE change which indicates that energy downshifting mechanism is dominating. So overall performance enhancement can be attributed to the scattering and photoluminescence properties of InN NPs that enhances absorption inside a-Si:H solar cells.

机译：在这项工作中，已经研究了氮化铟（InN）纳米颗粒（NPs）对a-Si：H太阳能电池性能的影响。发现InN NPs包被的电池的平均J_（sc）为6.76mA / cm〜2，比参考电池的平均J_（sc）的5.79mA / cm〜2高出16.69％。 InN NPs包被的细胞的平均效率从14.32％提高到3.79％，增幅为14.16％。对于InN NPs涂层电池，峰值EQE从500 nm处的44.8％增加到510 nm处的51.67％，并且IQE峰值从510 nm处的51.70％增加到500 nm处的68.38％。进一步的研究表明，与IQE变化相比，EQE变化在510 nm至700 nm之间更大，这表明表面散射机制降低了反射率。但是，在400 nm至510 nm之间，IQE的变化大于EQE的变化，这表明能量降档机制占主导地位。因此，整体性能的提高可归因于InN NP的散射和光致发光特性，它们增强了a-Si：H太阳能电池内部的吸收。

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《Symposium on nanotechnology general session;Meeting of the Electrochemical Society》|2015年|9-16|共8页
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Farsad Imtiaz Chowdhury; Kazi Islam; Sabri Alkis; Buelend Ortac; Mustafa Alevli; Nikolaus Dietz; Ali K. Okyay; Ammar Nayfeh;
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1. Comparative study of thin film n-i-p a-Si:H solar cells to investigate the effect of absorber layer thickness on the plasmonic enhancement using gold nanoparticles (vol 120, pg 257, 2015) [J] . Islam Kazi, Chowdhury Farsad Imtiaz, Okyay Ali Kemal, Solar Energy . 2017,第sepa期

机译：薄膜n-i-p a-Si：H太阳能电池的比较研究，以研究吸收剂层厚度对使用金纳米颗粒的等离子体增强等离子体的影响（第120卷，第257页，2015年）
2. Comparative study of thin film n-i-p a-Si:H solar cells to investigate the effect of absorber layer thickness on the plasmonic enhancement using gold nanoparticles [J] . Islam Kazi, Chowdhury Farsad Imtiaz, Okyay Ali Kemal, Solar Energy . 2015,第OCTa期

机译：薄膜n-i-p a-Si：H太阳能电池的比较研究，以研究吸收剂层厚度对使用金纳米颗粒的等离子体增强等离子体的影响
3. Light scattering at textured back contacts for n-i-p thin-film silicon solar cells [J] . Bittkau K. Journal of Applied Physics . 2012,第8期

机译：n-i-p薄膜硅太阳能电池的纹理背触点处的光散射
4. Enhanced Light Scattering with Energy Downshifting Using 16 nm Indium Nitride Nanoparticles for Improved Thin-film a-Si N-i-P Solar Cells [C] . Farsad Imtiaz Chowdhury, Kazi Islam, Sabri Alkis, Symposium on nanotechnology general session . 2015

机译：使用16nM氮化铟纳米粒子改善薄膜A-Si n-I-P太阳能电池的增强光散射，通过缩小电能下卓散
5. Spectroscopic Ellipsometry Studies of Thin Film a-Si:H Solar Cell Fabrication by Multichamber Deposition in the n-i-p Substrate Configuration. [D] . Dahal, Lila Raj. 2013

机译：在n-i-p基板配置中通过多腔室沉积法制造薄膜a-Si：H太阳能电池的光谱椭偏研究。
6. Performance-Enhanced Textured Silicon Solar Cells Based on Plasmonic Light Scattering Using Silver and Indium Nanoparticles [O] . Wen-Jeng Ho, Shih-Ya Su, Yi-Yu Lee, 2015

机译：基于使用银和铟纳米粒子的等离子光散射的性能增强的纹理化硅太阳能电池
7. Enhanced light scattering with energy downshifting using 16 nm indium nitride nanoparticles for improved thin-film a-Si N-i-P solar cells [O] . Chowdhury F.I., Islam, K., Alkis, S., 2015

机译：使用16 nm氮化铟纳米粒子进行能量下移增强光散射，从而改善薄膜a-Si N-i-P太阳能电池

Enhanced Light Scattering with Energy Downshifting Using 16 nm Indium Nitride Nanoparticles for Improved Thin-film a-Si N-i-P Solar Cells

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