Piezoresistance and solar cell efficiencyDiffusion-induced stresses in silicon are shown to result in large localized changes in the minority-carrier mobility which in turn can have a significant effect on cell output. Evidence is given that both compressive and tensile stresses can be generated in either the emitter or the base region. Tensile stresses in the base appear to be much more effective in altering cell performance than do compressive stresses. While most stress-related effects appear to degrade cell efficiency, this is not always the case. Evidence is presented showing that arsenic-induced stresses can result in emitter characteristics comparable to those found in the MINP cell without requiring a high degree of surface passivation.
Document ID
19880047071
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Weizer, Victor G. (NASA Lewis Research Center Cleveland, OH, United States)