PHOTOVOLTAIC DETECTION OF MAGNETIC RESONANCE IN a-Si:H SOLAR CELL | Zendy

YAN MAO-XUN | Zendy; Wu Shu-xiang | Zendy; XU HUI-YINC | Zendy; Wu En | Zendy; Mao Jinchang | Zendy; Xuanying Lin | Zendy; Guanghua Zhang | Zendy; LIU JIA | Zendy

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PHOTOVOLTAIC DETECTION OF MAGNETIC RESONANCE IN a-Si:H SOLAR CELL

Author(s) -

YAN MAO-XUN,

Wu Shu-xiang,

XU HUI-YINC,

Wu En,

Mao Jinchang,

Xuanying Lin,

Guanghua Zhang,

LIU JIA

Publication year - 1988

Publication title -

acta physica sinica

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.199

H-Index - 47

ISSN - 1000-3290

DOI - 10.7498/aps.37.847

Subject(s) - solar cell , recombination , photovoltaic system , materials science , silicon solar cell , solar cell efficiency , optoelectronics , theory of solar cells , nuclear magnetic resonance , physics , chemistry , biochemistry , gene , ecology , biology

An investigation of spin dependent recombination processes in p+in+ a-Si:H solar cell by photovoltaic detection of magnetic resonance (PDMR) is reported. The study indicates that the PDMR signals for various solar cells made by different technology have different g-values and line shapes, so the dominant recombination processes are different. The influence of the speed of growth, substrate temperature and intrinsic thickness of a-Si:H film on solar cell properties is discussed in terms of the PDMR results.

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