Modeling of High-Efficiency Multi-Junction Polymer and Hybrid Solar Cells to Absorb Infrared Light

Jobeda J. Khanam; Simon Y. Foo

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Modeling of High-Efficiency Multi-Junction Polymer and Hybrid Solar Cells to Absorb Infrared Light

机译：高效多界聚合物和混合太阳能电池的建模吸收红外光

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In this paper, we present our work on high-efficiency multi-junction polymer and hybrid solar cells. The transfer matrix method is used for optical modeling of an organic solar cell, which was inspired by the McGehee Group in Stanford University. The software simulation calculates the optimal thicknesses of the active layers to provide the best short circuit current (J SC ) value. First, we show three designs of multi-junction polymer solar cells, which can absorb sunlight beyond the 1000 nm wavelengths. Then we present a novel high-efficiency hybrid (organic and inorganic) solar cell, which can absorb the sunlight with a wavelength beyond 2500 nm. Approximately 12% efficiency was obtained for the multi-junction polymer solar cell and 20% efficiency was obtained from every two-, three- and four-junction hybrid solar cell under 1 sun AM1.5 illumination.

机译：在本文中，我们介绍了我们在高效多结聚合物和混合太阳能电池上的工作。转移矩阵方法用于有机太阳能电池的光学建模，其受斯坦福大学MCGEHEE集团的启发。软件仿真计算有源层的最佳厚度，以提供最佳的短路电流（J SC）值。首先，我们展示了三个多结聚合物太阳能电池设计，可以吸收超过1000nm波长的阳光。然后我们提出了一种新型高效杂种（有机和无机）太阳能电池，其可以吸收超过2500nm的波长的阳光。为多结聚合物太阳能电池获得大约12％的效率，从1次Sun1.5照明下的每种两种，三结和四联杂交太阳能电池获得20％的效率。

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《Polymers》 |2019年第2期|共16页
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Jobeda J. Khanam; Simon Y. Foo;
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short circuit current density (J sc )open circuit voltage (V oc )power conversion efficiency (PCE)fill factor (FF)organic/polymer solar cell (OSC)hybrid solar cell (HSC);

机译：短路电流密度（J SC）开路电压（V OC）电源转换效率（PCE）填充因子（FF）有机/聚合物太阳能电池（OSC）混合太阳能电池（HSC）;
入库时间 2022-08-19 00:37:41

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1. Boosting Infrared Light Harvesting by Molecular Functionalization of Metal Oxide/Polymer Interfaces in Efficient Hybrid Solar Cells [J] . Ciulia Cmncini, R. Sai Santosh Kumar, Agnese Abrusci, Advanced Functional Materials . 2012,第10期

机译：通过高效混合太阳能电池中金属氧化物/聚合物界面的分子功能化促进红外光收集
2. Significant Stability Enhancement in High-Efficiency Polymer:Fullerene Bulk Heterojunction Solar Cells by Blocking Ultraviolet Photons from Solar Light [J] . Zhi-Jun Li, Jooyeok Seo, Mao-Yong Huang, Advanced Science . 2015,第4期

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3. Hybrid crystalline sp(2)-sp(3) carbon as a high-efficiency solar cell absorber [J] . Zhang Yue-Yu, Chen Shiyou, Xiang Hongjun, Carbon: An International Journal Sponsored by the American Carbon Society . 2016,第Null期

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4. Fabrication and Applications of High-Efficiency, Lightweight, Multi-Junction Solar Cells by Epitaxial Liftoff [C] . V. C. Elarde, H. Miyamoto, R. Chan, State-of-the-art program on compound semiconductors 57 . 2015

机译：外延剥离法制备高效率，轻量，多结太阳能电池
5. Morphology Control of Perovskite Absorber Layer for High-Efficiency Polymer Solar Cells:Modeling, Simulation and Fabrication [D] . Ogundana, Ifedayo Joseph. 2017

机译：高效聚合物太阳能电池钙钛矿吸收层的形貌控制：建模，仿真与制造
6. Modeling of High-Efficiency Multi-Junction Polymer and Hybrid Solar Cells to Absorb Infrared Light [O] . Jobeda J. Khanam, Simon Y. Foo 2018

机译：高效多结聚合物和混合太阳能电池吸收红外光的建模
7. Infrared light management in high-efficiency silicon heterojunction and rear-passivated solar cells [O] . Zachary C. Holman, Miha Filipič, Antoine Descoeudres, 2013

机译：高效硅异质结和后钝化太阳能电池的红外光管理
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机译：高效，多间隙，多结非晶硅基合金薄膜太阳能电池的研究。最终分包合同报告，1987年3月1日至1990年2月28日。

Modeling of High-Efficiency Multi-Junction Polymer and Hybrid Solar Cells to Absorb Infrared Light

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