Nano-scale origins of recombination activity and optical properties of extended defects in mc-Si wafers and PV cells
Multicrystalline silicon (mc-Si) is the most used absorber in photovoltaic (PV) cells at present. If efficiencies are to improve in this established technology a better understanding of how minority carrier lifetimes are reduced is necessary. The capture of minority carriers by states associated with extended defects is known to play a major role in reducing minority carrier lifetimes. Energy levels introduced into the silicon bandgap often have electrical activity or optical signatures that can provide clues as to the structural or chemical origin of a particular level. This work utilizes ...
(For more, see "View full record.")