The Experts below are selected from a list of 267 Experts worldwide ranked by ideXlab platform
Yifeng Chen - One of the best experts on this subject based on the ideXlab platform.
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20.8% PERC Solar Cell on 156 mm × 156 mm P-Type Multicrystalline Silicon Substrate
IEEE Journal of Photovoltaics, 2016Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Pierre Jacques Verlinden, Jianwen Dong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng ChenAbstract:Passivated emitter and rear solar cells (PERC) on the p-type multicrystalline silicon substrate have become the focus of recent laboratory and industrial-based research because of its promising mass Production Perspective. This paper presents the most recent studies on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multicrystalline substrates. To further increase cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the nonoptimum light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
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20.8% efficient PERC solar cell on 156 mm×156 mm p-type multi-crystalline silicon substrate
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 2015Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng Chen, Ajianwen Dong, Zhiqiang FengAbstract:P-type multi-crystalline passivated emitter and rear solar cells (PERC) become the focus of recent laboratory and industrial base research due to its promising mass Production Perspective. This paper presents the most recent works on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multi-crystalline substrates. To further increase the cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the poor light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
Weiwei Deng - One of the best experts on this subject based on the ideXlab platform.
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20.8% PERC Solar Cell on 156 mm × 156 mm P-Type Multicrystalline Silicon Substrate
IEEE Journal of Photovoltaics, 2016Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Pierre Jacques Verlinden, Jianwen Dong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng ChenAbstract:Passivated emitter and rear solar cells (PERC) on the p-type multicrystalline silicon substrate have become the focus of recent laboratory and industrial-based research because of its promising mass Production Perspective. This paper presents the most recent studies on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multicrystalline substrates. To further increase cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the nonoptimum light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
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20.8% efficient PERC solar cell on 156 mm×156 mm p-type multi-crystalline silicon substrate
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 2015Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng Chen, Ajianwen Dong, Zhiqiang FengAbstract:P-type multi-crystalline passivated emitter and rear solar cells (PERC) become the focus of recent laboratory and industrial base research due to its promising mass Production Perspective. This paper presents the most recent works on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multi-crystalline substrates. To further increase the cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the poor light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
Daming Chen - One of the best experts on this subject based on the ideXlab platform.
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20.8% PERC Solar Cell on 156 mm × 156 mm P-Type Multicrystalline Silicon Substrate
IEEE Journal of Photovoltaics, 2016Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Pierre Jacques Verlinden, Jianwen Dong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng ChenAbstract:Passivated emitter and rear solar cells (PERC) on the p-type multicrystalline silicon substrate have become the focus of recent laboratory and industrial-based research because of its promising mass Production Perspective. This paper presents the most recent studies on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multicrystalline substrates. To further increase cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the nonoptimum light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
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20.8% efficient PERC solar cell on 156 mm×156 mm p-type multi-crystalline silicon substrate
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 2015Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng Chen, Ajianwen Dong, Zhiqiang FengAbstract:P-type multi-crystalline passivated emitter and rear solar cells (PERC) become the focus of recent laboratory and industrial base research due to its promising mass Production Perspective. This paper presents the most recent works on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multi-crystalline substrates. To further increase the cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the poor light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
Zhen Xiong - One of the best experts on this subject based on the ideXlab platform.
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20.8% PERC Solar Cell on 156 mm × 156 mm P-Type Multicrystalline Silicon Substrate
IEEE Journal of Photovoltaics, 2016Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Pierre Jacques Verlinden, Jianwen Dong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng ChenAbstract:Passivated emitter and rear solar cells (PERC) on the p-type multicrystalline silicon substrate have become the focus of recent laboratory and industrial-based research because of its promising mass Production Perspective. This paper presents the most recent studies on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multicrystalline substrates. To further increase cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the nonoptimum light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
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20.8% efficient PERC solar cell on 156 mm×156 mm p-type multi-crystalline silicon substrate
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 2015Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng Chen, Ajianwen Dong, Zhiqiang FengAbstract:P-type multi-crystalline passivated emitter and rear solar cells (PERC) become the focus of recent laboratory and industrial base research due to its promising mass Production Perspective. This paper presents the most recent works on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multi-crystalline substrates. To further increase the cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the poor light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
Feng Ye - One of the best experts on this subject based on the ideXlab platform.
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20.8% PERC Solar Cell on 156 mm × 156 mm P-Type Multicrystalline Silicon Substrate
IEEE Journal of Photovoltaics, 2016Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Pierre Jacques Verlinden, Jianwen Dong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng ChenAbstract:Passivated emitter and rear solar cells (PERC) on the p-type multicrystalline silicon substrate have become the focus of recent laboratory and industrial-based research because of its promising mass Production Perspective. This paper presents the most recent studies on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multicrystalline substrates. To further increase cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the nonoptimum light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
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20.8% efficient PERC solar cell on 156 mm×156 mm p-type multi-crystalline silicon substrate
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 2015Co-Authors: Weiwei Deng, Daming Chen, Zhen Xiong, Feng Ye, Hui Li, Ming Zhong, Yang Yang, Yifeng Chen, Ajianwen Dong, Zhiqiang FengAbstract:P-type multi-crystalline passivated emitter and rear solar cells (PERC) become the focus of recent laboratory and industrial base research due to its promising mass Production Perspective. This paper presents the most recent works on PERC solar cells and reveals the realization of a world record efficiency of 20.8% PERC solar cell fabricated with screen printing technology on 156 mm × 156 mm multi-crystalline substrates. To further increase the cell efficiency, an optical loss analysis was conducted, which shows that the current loss due to the poor light trapping dominates the overall optical loss. Based on the analysis, an efficiency of 21.3% is achievable in the near future with further optimization.
