Structure simulation of screen printed local back surface field for rear passivated silicon solar cells
The research of this paper was focused on the simulation of screen printed Local Back Surface Field (LBSF) for the rear passivated solar cells. The thickness, homogeneity and cavity effect were studied. According to the simulation results, the thickness of LBSF should be at least 2 μm in order to ga...
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| Published in: | 2012 38th IEEE Photovoltaic Specialists Conference pp. 001018 - 001022 |
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| Main Authors: | , , , , |
| Format: | Conference Proceeding |
| Language: | English |
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IEEE
01-06-2012
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| Abstract | The research of this paper was focused on the simulation of screen printed Local Back Surface Field (LBSF) for the rear passivated solar cells. The thickness, homogeneity and cavity effect were studied. According to the simulation results, the thickness of LBSF should be at least 2 μm in order to gain high efficiency of solar cells. If LBSF was thick enough, the homogeneity of LBSF had less impact on the cell performance. However, the incomplete formation of LBSF layer would drastically decrease the open circuit voltage (V oc ) of cells. The thinnest part of an inhomogeneous LBSF should be 1 to 2 μm at the least. As for the influence of the cavities inside the local contacts, a single long cavity would cause a power loss of 8.20% to 11.15% relatively, and the cavity group made up of many long cavities would cause a power loss of about 11.53% to100% relatively. |
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| AbstractList | The research of this paper was focused on the simulation of screen printed Local Back Surface Field (LBSF) for the rear passivated solar cells. The thickness, homogeneity and cavity effect were studied. According to the simulation results, the thickness of LBSF should be at least 2 μm in order to gain high efficiency of solar cells. If LBSF was thick enough, the homogeneity of LBSF had less impact on the cell performance. However, the incomplete formation of LBSF layer would drastically decrease the open circuit voltage (V oc ) of cells. The thinnest part of an inhomogeneous LBSF should be 1 to 2 μm at the least. As for the influence of the cavities inside the local contacts, a single long cavity would cause a power loss of 8.20% to 11.15% relatively, and the cavity group made up of many long cavities would cause a power loss of about 11.53% to100% relatively. |
| Author | Daming Chen Zongcun Liang Yang Yang Yang Liu Hui Shen |
| Author_xml | – sequence: 1 surname: Daming Chen fullname: Daming Chen organization: State Key Lab. of Optoelectron. Mater. & Technol., Sun Yat-sen Univ., Guangzhou, China – sequence: 2 surname: Zongcun Liang fullname: Zongcun Liang email: liangzc@mail.sysu.edu.cn organization: State Key Lab. of Optoelectron. Mater. & Technol., Sun Yat-sen Univ., Guangzhou, China – sequence: 3 surname: Yang Yang fullname: Yang Yang organization: State Key Lab. of PV Sci. & Technol., Trina Solar Ltd. Co., Changzhou, China – sequence: 4 surname: Hui Shen fullname: Hui Shen organization: State Key Lab. of Optoelectron. Mater. & Technol., Sun Yat-sen Univ., Guangzhou, China – sequence: 5 surname: Yang Liu fullname: Yang Liu organization: State Key Lab. of Optoelectron. Mater. & Technol., Sun Yat-sen Univ., Guangzhou, China |
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| Snippet | The research of this paper was focused on the simulation of screen printed Local Back Surface Field (LBSF) for the rear passivated solar cells. The thickness,... |
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| SubjectTerms | Cavity resonators Contacts LBSF Nonhomogeneous media Photovoltaic cells Photovoltaic systems solar cells Solar energy structure simulation |
| Title | Structure simulation of screen printed local back surface field for rear passivated silicon solar cells |
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