Improving the Efficiency of Thin Film Amorphous Silicon Solar Cell by Changing the Location and Material of Plasmonic Metallic Nanostructures

机译：通过改变等离子体金属纳米结构的位置和材料来提高薄膜非晶硅太阳能电池的效率

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In this work we present a 3D-fmite difference time domain (FDTD) simulation of ultra thin amorphous silicon solar cell. The optical generation rate and plasmonic resonance enhance absorption in thin film cell in which silver nanoparticles are imbedded inside the depletion region of p-n junction. Here, the operation of thin film solar cell has been analyzed. Here, by inserting the metal nanoparticles within the active layer in the depletion region of the p-n junction, a new structure has been introduced. We have utilized three different materials, gold, silver and aluminium and the efficiencies of 5.27%, 5.3% and 3.74% have been obtained respectively. The results indicate a significant increase in the efficiency of proposed solar cell with silver nanoparticles.

机译：在这项工作中，我们介绍了超薄非晶硅太阳能电池的3D-FMITE差时域（FDTD）仿真。光学产生率和等离子体共振增强在薄膜电池中吸收，其中银纳米颗粒嵌入P-N结的耗尽区内。这里，已经分析了薄膜太阳能电池的操作。这里，通过将金属纳米颗粒插入P-N结的耗尽区中，已经引入了一种新的结构。我们使用了三种不同的材料，金，银和铝，分别获得了5.27％，5.3％和3.74％的效率。结果表明用银纳米颗粒提出太阳能电池的效率显着增加。

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《International Conference on Power and Energy Systems Engineering》|2018年|688 p.|共5页
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Ali Rahmani; Shahram Vatankhah;
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solar cell; amorphous silicon; plasmonic; silver nanoparticles; efficiency;

机译：太阳能电池;非晶硅;等离子体;银纳米粒子;效率;

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1. Simulating the Role of TCO Materials, their Surface Texturing and Band Gap of Amorphous Silicon Layers on the Efficiency of Amorphous Silicon Thin Film Solar Cells [J] . Sharma Mansi, Chaudhary Deepika, Dwivedi Neeraj, Silicon . 2017,第1期

机译：模拟TCO材料的作用，它们对非晶硅层的表面纹理和带隙，对非晶硅薄膜太阳能电池效率
2. Ultrathin amorphous silicon thin-film solar cells by magnetic plasmonic metamaterial absorbers [J] . Tang Chaojun, Yan Zhendong, Wang Qiugu, RSC Advances . 2015,第100期

机译：超薄非晶硅薄膜太阳能电池通过磁等级超材料吸收剂
3. Dual-Layer Nanostructured Flexible Thin-Film Amorphous Silicon Solar Cells with Enhanced Light Harvesting and Photoelectric Conversion Efficiency [J] . Lin Yinyue, Xu Zhen, Yu Dongliang, ACS applied materials & interfaces . 2016,第17期

机译：具有增强的光收集和光电转换效率的双层纳米结构柔性薄膜非晶硅太阳能电池
4. Improving the Efficiency of Thin Film Amorphous Silicon Solar Cell by Changing the Location and Material of Plasmonic Metallic Nanostructures [C] . Ali Rahmani, Shahram Vatankhah International Conference on Power and Energy Systems Engineering . 2018

机译：通过改变等离子体金属纳米结构的位置和材料来提高薄膜非晶硅太阳能电池的效率
5. Increasing solar energy conversion efficiency in thin film hydrogenated amorphous silicon solar cells with patterned plasmonic silver nano-disk array. [D] . Vora, Ankit. 2015

机译：带有图案化等离子体银纳米盘阵列的薄膜氢化非晶硅太阳能电池中太阳能转换效率的提高。
6. Towards ultra-thin plasmonic silicon wafer solar cells with minimized efficiency loss [O] . Yinan Zhang, Nicholas Stokes, Baohua Jia, -1

机译：朝着使效率损失最小化的超薄等离子体硅晶片太阳能电池的方向发展
7. Plasmonic modes in molybdenum ultra-thin films suitable for hydrogenated amorphous silicon thin film solar cells [O] . Lombardo, S, Battaglia, A, Foti, M, 2014

机译：适用于氢化非晶硅薄膜太阳能电池的钼超薄膜中的等离子模式
8. Research on high-efficiency, multiple-gap, multi-junction amorphous silicon-based alloy thin-film solar cells. Final subcontract report, March 1, 1987-February 28, 1990. [R] . Guha, S. 1990

机译：高效，多间隙，多结非晶硅基合金薄膜太阳能电池的研究。最终分包合同报告，1987年3月1日至1990年2月28日。

Improving the Efficiency of Thin Film Amorphous Silicon Solar Cell by Changing the Location and Material of Plasmonic Metallic Nanostructures

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