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A minority-carrier transport model for polysilicon contacts to silicon bipolar devices, including solar cells

机译：多晶硅与硅双极器件（包括太阳能电池）的接触的少数载流子传输模型

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A physical, analytic model for heavily doped polysilicon contacts to silicon bipolar devices is developed. The model defines an effective surface recombination velocity Sefffor minority carriers at the polysilicon-silicon interface in terms of the physical properties of the polysilicon. It thus allows the carrier transport problem in the adjacent silicon region, e.g., the emitter, to be solved and the efficacy of the device, e.g., a transistor or a solar cell, to be characterized, and hence can be an effective design aid. The model is shown to compare well with published experimental data indicating the benefits of polysilicon contacts to bipolar transistors. Such benefits, which result because of the relatively low values of Seff, might also occur when polysilicon contacts are used on silicon solar cells.

机译：建立了用于双极硅器件的重掺杂多晶硅触点的物理分析模型。该模型根据多晶硅的物理性质，定义了多晶硅-硅界面上少数载流子的有效表面复合速度S eff 。因此，这可以解决在相邻的硅区域（例如，发射极）中的载流子传输问题，并且可以表征器件（例如，晶体管或太阳能电池）的功效，因此可以是有效的设计辅助。所显示的模型可以很好地与已发表的实验数据进行比较，该实验数据表明了多晶硅触点对双极晶体管的好处。当在硅太阳能电池上使用多晶硅触点时，也可能出现由于S eff 值相对较低而产生的此类好处。

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《Electron Devices Meeting, 1980 International》||p.280-283|共4页
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Fossum J.G.; Shibib M.A.;
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专利

1. Unified minority-carrier transport equation for polysilicon or heteromaterial emitter contact bipolar transistors [J] . Suzuki K. IEEE Transactions on Electron Devices . 1991,第8期

机译：多晶硅或异质材料发射极接触双极晶体管的统一少数载流子传输方程
2. In-situ phosphorus-doped polysilicon prepared using rapid-thermal anneal (RTA) and its application for polysilicon passivated-contact solar cells [J] . Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2020,第期

机译：使用快速热退火（RTA）制备的原位磷掺杂多晶硅及其对多晶硅钝化 - 接触太阳能电池的应用
3. Effect of silicon oxide thickness on polysilicon based passivated contacts for high-efficiency crystalline silicon solar cells [J] . Kale Abhijit S., Nemeth William, Harvey Steven P., Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2018,第期

机译：氧化硅厚度对高效晶体太阳能电池的多晶硅钝化触点的影响
4. Methods and devices for noncontact express measurement of the main electro-physical parameters of polysilicon and multysilicon used for solar cells production [C] . Yurchenko Alexey, Ohorzina Alena, Nikcolenko Kirill 2012 7th International Forum on Strategic Technology. . 2012

机译：非接触式快速测量用于太阳能电池生产的多晶硅和多晶硅主要电物理参数的方法和装置
5. Junction Engineering and Device Design for Silicon Heterojunction and Interdigitated Back Contact Silicon Heterojunction Solar Cells [D] . Zhang, Lei. 2018

机译：硅异质结和叉指背接触式硅异质结太阳能电池的结工程和器件设计
6. Device Modeling and Design of Inverted Solar Cell Based on Comparative Experimental Analysis between Effect of Organic and Inorganic Hole Transport Layer on Morphology and Photo-Physical Property of Perovskite Thin Film [O] . Xiaolan Wang, Xiaoping Zou, Jialin Zhu, 2021

机译：基于对比较实验分析的基于对比实验分析的无机空穴传输层与钙钛矿薄膜形态和光学性质的对比实验分析
7. Role of polysilicon in poly-Si/SiOx passivating contacts for high-efficiency silicon solar cells [O] . HyunJung Park, Soohyun Bae, Se Jin Park, 2019

机译：多晶硅在高效硅太阳能电池钝化触点中的角色
8. Silicon Solar Cells with Polysilicon Contacts [R] . Christel, L. A. 1987

机译：具有多晶硅触点的硅太阳能电池

A minority-carrier transport model for polysilicon contacts to silicon bipolar devices, including solar cells

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