Physics underlying improved efficiency of high-low-junction emitter silicon solar cells

机译：高低结发射极硅太阳能电池效率提高的基础物理学

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This paper describes the physical behavior of a recently proposed device structure, the HLE solar cell [1], that yields substantial increases in the open-circuit voltage and in the power-conversion efficiency of p-n junction silicon solar cells. The structure differs from the conventional cell structure (n+-p) in that it contains a high-low (H-L) junction in the emitter (n+-n-p). For cells having low base resistivities (∼0.1 Ω-cm), efficiency improvements of about 15% at AM1 and about 40% at 50 suns can be expected. The improvement at 50 suns results in an efficiency of about 20% at 27°C.

机译：本文介绍了最近提出的器件结构HLE太阳能电池[1]的物理行为，该结构可大幅提高p-n结硅太阳能电池的开路电压和功率转换效率。该结构与常规单元结构（n ^{+ -p）的不同之处在于，它在发射极（n ^{+ -n-p）中包含一个高-低（H-L）结。对于具有低基本电阻率（约0.1Ω-cm）的电池，可以预期在AM1处效率提高约15％，在50个日光下效率提高约40％。在50个太阳下的改善导致在27°C时的效率约为20％。}}

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《Electron Devices Meeting, 1977 International》||p.222-225|共4页
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Fossum J.G.; Lindholm F.A.; Sah C.T.;
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Physics underlying improved efficiency of high-low-junction emitter silicon solar cells

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