Stress engineering in amorphous silicon thin films
Photovoltaic Specialists Conference(2011)
摘要
Low hole mobility severely limits the conversion efficiencies of amorphous silicon (a-Si) solar cells. Previously it has been proposed that carrier mobility can be improved by introducing certain types of stress into thin films. In this work we explore a range of deposition conditions allowing the formation of intrinsic stresses varying from -924 MPa compressive to 386 MPa tensile. We then discuss the origins of these stresses due to ion bombardment, presenting a model correlating our deposition parameters with our observed stress measurements. In doing so we elucidate the non-linear relationship between deposition pressure and the films intrinsic stress.
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关键词
hole mobility,silicon,solar cells,stress measurement,thin films,si,amorphous silicon thin films,carrier mobility,conversion efficiencies,deposition conditions,deposition pressure,films intrinsic stress,ion bombardment,low hole mobility,nonlinear relationship,pressure -924 mpa to 386 mpa,stress engineering,stress measurements,films,thin film,ions,plasmas,stress,conversion efficiency
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