Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications

10.1016/j.solmat.2020.110458

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Main Authors: Yan, Xia, Bin Suhaimi, Firdaus, Xu, Menglei, Yang, Jie, Zhang, Xinyu, Wang, Qi, Jin, Hao, Shanmugam, Vinodh, Duttagupta, Shubham
Other Authors: SOLAR ENERGY RESEARCH INST OF S'PORE
Format: Article
Language:English
Published: ELSEVIER 2020
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Online Access:https://scholarbank.nus.edu.sg/handle/10635/171637
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Institution: National University of Singapore
Language: English
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spelling sg-nus-scholar.10635-1716372023-09-20T08:38:51Z Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications Yan, Xia Bin Suhaimi, Firdaus Xu, Menglei Yang, Jie Zhang, Xinyu Wang, Qi Jin, Hao Shanmugam, Vinodh Duttagupta, Shubham SOLAR ENERGY RESEARCH INST OF S'PORE Science & Technology Technology Physical Sciences Energy & Fuels Materials Science, Multidisciplinary Physics, Applied Materials Science Physics Passivated contact Ex-situ doping Diffusion Ultra-thin poly-Si ZnO:Al POCL3 DIFFUSION SILICON EFFICIENCY INTERFACE THICKNESS PRESSURE FILMS ZNOAL 10.1016/j.solmat.2020.110458 SOLAR ENERGY MATERIALS AND SOLAR CELLS 209 completed 2020-07-21T06:56:33Z 2020-07-21T06:56:33Z 2020-06-01 2020-07-06T10:33:10Z Article Yan, Xia, Bin Suhaimi, Firdaus, Xu, Menglei, Yang, Jie, Zhang, Xinyu, Wang, Qi, Jin, Hao, Shanmugam, Vinodh, Duttagupta, Shubham (2020-06-01). Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications. SOLAR ENERGY MATERIALS AND SOLAR CELLS 209. ScholarBank@NUS Repository. https://doi.org/10.1016/j.solmat.2020.110458 09270248 18793398 https://scholarbank.nus.edu.sg/handle/10635/171637 en ELSEVIER Elements
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
language English
topic Science & Technology
Technology
Physical Sciences
Energy & Fuels
Materials Science, Multidisciplinary
Physics, Applied
Materials Science
Physics
Passivated contact
Ex-situ doping
Diffusion
Ultra-thin poly-Si
ZnO:Al
POCL3 DIFFUSION
SILICON
EFFICIENCY
INTERFACE
THICKNESS
PRESSURE
FILMS
ZNOAL
spellingShingle Science & Technology
Technology
Physical Sciences
Energy & Fuels
Materials Science, Multidisciplinary
Physics, Applied
Materials Science
Physics
Passivated contact
Ex-situ doping
Diffusion
Ultra-thin poly-Si
ZnO:Al
POCL3 DIFFUSION
SILICON
EFFICIENCY
INTERFACE
THICKNESS
PRESSURE
FILMS
ZNOAL
Yan, Xia
Bin Suhaimi, Firdaus
Xu, Menglei
Yang, Jie
Zhang, Xinyu
Wang, Qi
Jin, Hao
Shanmugam, Vinodh
Duttagupta, Shubham
Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
description 10.1016/j.solmat.2020.110458
author2 SOLAR ENERGY RESEARCH INST OF S'PORE
author_facet SOLAR ENERGY RESEARCH INST OF S'PORE
Yan, Xia
Bin Suhaimi, Firdaus
Xu, Menglei
Yang, Jie
Zhang, Xinyu
Wang, Qi
Jin, Hao
Shanmugam, Vinodh
Duttagupta, Shubham
format Article
author Yan, Xia
Bin Suhaimi, Firdaus
Xu, Menglei
Yang, Jie
Zhang, Xinyu
Wang, Qi
Jin, Hao
Shanmugam, Vinodh
Duttagupta, Shubham
author_sort Yan, Xia
title Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
title_short Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
title_full Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
title_fullStr Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
title_full_unstemmed Development of ultra-thin doped poly-Si via LPCVD and ex-situ tube diffusion for passivated contact solar cell applications
title_sort development of ultra-thin doped poly-si via lpcvd and ex-situ tube diffusion for passivated contact solar cell applications
publisher ELSEVIER
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/171637
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