Broadband energy harvesting with nano-composite PbS-Nanocrystal/Excimer laser crystallized thin film silicon hybrid solar cells

Mudugamuwa NK; Dissanayake DMNM; Adikaari AADT; Silva SRR

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Broadband energy harvesting with nano-composite PbS-Nanocrystal/Excimer laser crystallized thin film silicon hybrid solar cells

机译：纳米复合PbS-纳米晶体/准分子激光结晶薄膜硅杂化太阳能电池的宽带能量收集

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Photovoltaics between hydrogenated amorphous silicon (a-Si:H) and PbS-nanocrystals (NCs) are demonstrated. Enhanced spectral response was observed below 375 and beyond 800 nm for a-Si:H/PbS-NCs compared to a-Si:H devices using external quantum efficiency measurements (EQE). Further improvement of EQE was observed from hybrid devices fabricated using a-Si:H subjected to excimer laser crystallization (ELC). This improvement is attributed to the reduction in the a-Si:H band gap through ELC, resulting in a lower barrier for hole extraction from the PbS-NCs. Techniques discussed in this paper would be useful for the fabrication of highly efficient a-Si:H and nanocrystal based hybrid photovoltaics in future.

机译：演示了氢化非晶硅（a-Si：H）和PbS纳米晶体（NCs）之间的光伏。与使用外部量子效率测量（EQE）的a-Si：H器件相比，a-Si：H / PbS-NC的光谱响应在375以下和800 nm以上观察到增强。使用受准分子激光结晶（ELC）的a-Si：H制成的混合器件，观察到EQE的进一步改善。这种改善归因于通过ELC减少了a-Si：H带隙，从而降低了从PbS-NC提取空穴的势垒。本文讨论的技术将来将对制造高效的a-Si：H和基于纳米晶体的混合光伏电池有用。

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《Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion》 |2009年第5期|共3页
作者
Mudugamuwa NK; Dissanayake DMNM; Adikaari AADT; Silva SRR;
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正文语种 eng
中图分类太阳能技术;
关键词
Hydrogenated amorphous silicon; PbS-nanocrystals; Excimer laser crystallization; Hybrid solar cells;

机译：氢化非晶硅;PbS纳米晶体;准分子激光结晶;混合太阳能电池;

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1. Broadband energy harvesting with nano-composite PbS-Nanocrystal/Excimer laser crystallized thin film silicon hybrid solar cells [J] . Mudugamuwa NK, Dissanayake DMNM, Adikaari AADT, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2009,第5期

机译：纳米复合PbS-纳米晶体/准分子激光结晶薄膜硅杂化太阳能电池的宽带能量收集
2. Stress and doping uniformity of laser crystallized amorphous silicon in thin film silicon solar cells [J] . R. M. B. Agaiby, M. Becker, S. B. Thapa, Journal of Applied Physics . 2010,第5期

机译：薄膜硅太阳能电池中激光结晶非晶硅的应力和掺杂均匀性
3. Periodically patterned micro-cone textures as high-efficiency light harvesting structure for broadband absorption enhancement in thin film silicon solar cells [J] . Chen Peizhuan, Niu Pingjuan, Yu Liyuan, Solar Energy . 2018,第JANa期

机译：周期性图案化的微锥纹理作为高效的光收集结构，可增强薄膜硅太阳能电池的宽带吸收
4. Excimer laser and aluminium-induced crystallisation of silicon thin films on foreign substrates for solar cells [C] . S. Summers, L. Wang, H. S. Reehal, Eourpean Photovoltaic Solar Energy Conference . 2000

机译：用于太阳能电池的异物基材上的硅薄膜的准分子激光和铝诱导的结晶
5. Excimer Laser Crystallization of Silicon Thin Films for Monolithic 3D Integration. [D] . Carta, Fabio. 2015

机译：用于单片3D集成的硅薄膜的准分子激光结晶。
6. Understanding Light Harvesting in Radial Junction Amorphous Silicon Thin Film Solar Cells [O] . Linwei Yu, Soumyadeep Misra, Junzhuan Wang, -1

机译：了解径向结非晶硅薄膜太阳能电池中的光收集
7. Investigation of Laser-fired Rear-side Point Contacts of Laser-crystallized Silicon Thin-film Solar Cells by Conductive Probe Atomic Force Microscopy [O] . Gref O., Sandström J., Weizman M., 2014

机译：导电探针原子力显微镜研究激光结晶的硅薄膜太阳能电池的激光发射后侧点接触
8. Excimer Laser Crystallization of Silicon Films: Artificially-Controlled Super Lateral Growth for Grain Boundary Location-Controlled and Single Crystal Island Materials for Thin Film Transistor Applications [R] . Im, J. S. , Sposili, R. S. 1998

机译：硅薄膜准分子激光晶化：用于薄膜晶体管应用的晶界限位和单晶岛材料的人工控制超横向生长

Broadband energy harvesting with nano-composite PbS-Nanocrystal/Excimer laser crystallized thin film silicon hybrid solar cells

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