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| Main Authors: | , , , , , , , , , , |
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| Format: | Preprint |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2412.20009 |
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| _version_ | 1866912171326177280 |
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| author | Sha, Wei E. I. Wang, Xiaoyu Chen, Wenchao Fu, Yuhao Zhang, Lijun Tian, Liang Lin, Minshen Jiao, Shudi Xu, Ting Sun, Tiange Liu, Dongxue |
| author_facet | Sha, Wei E. I. Wang, Xiaoyu Chen, Wenchao Fu, Yuhao Zhang, Lijun Tian, Liang Lin, Minshen Jiao, Shudi Xu, Ting Sun, Tiange Liu, Dongxue |
| contents | SolarDesign (https://solardesign.cn/) is an online photovoltaic device simulation and design platform that provides engineering modeling analysis for crystalline silicon solar cells, as well as emerging high-efficiency solar cells such as organic, perovskite, and tandem cells. The platform offers user-updatable libraries of basic photovoltaic materials and devices, device-level multi-physics simulations involving optical-electrical-thermal interactions, and circuit-level compact model simulations based on detailed balance theory. Employing internationally advanced numerical methods, the platform accurately, rapidly, and efficiently solves optical absorption, electrical transport, and compact circuit models. It achieves multi-level photovoltaic simulation technology from ``materials to devices to circuits'' with fully independent intellectual property rights. Compared to commercial software, the platform achieves high accuracy and improves speed by more than an order of magnitude. Additionally, it can simulate unique electrical transport processes in emerging solar cells, such as quantum tunneling, exciton dissociation, and ion migration. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2412_20009 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | SolarDesign: An Online Photovoltaic Device Simulation and Design Platform Sha, Wei E. I. Wang, Xiaoyu Chen, Wenchao Fu, Yuhao Zhang, Lijun Tian, Liang Lin, Minshen Jiao, Shudi Xu, Ting Sun, Tiange Liu, Dongxue Optics Materials Science Applied Physics Computational Physics SolarDesign (https://solardesign.cn/) is an online photovoltaic device simulation and design platform that provides engineering modeling analysis for crystalline silicon solar cells, as well as emerging high-efficiency solar cells such as organic, perovskite, and tandem cells. The platform offers user-updatable libraries of basic photovoltaic materials and devices, device-level multi-physics simulations involving optical-electrical-thermal interactions, and circuit-level compact model simulations based on detailed balance theory. Employing internationally advanced numerical methods, the platform accurately, rapidly, and efficiently solves optical absorption, electrical transport, and compact circuit models. It achieves multi-level photovoltaic simulation technology from ``materials to devices to circuits'' with fully independent intellectual property rights. Compared to commercial software, the platform achieves high accuracy and improves speed by more than an order of magnitude. Additionally, it can simulate unique electrical transport processes in emerging solar cells, such as quantum tunneling, exciton dissociation, and ion migration. |
| title | SolarDesign: An Online Photovoltaic Device Simulation and Design Platform |
| topic | Optics Materials Science Applied Physics Computational Physics |
| url | https://arxiv.org/abs/2412.20009 |