Optical Coupling Efficiency, Photon Loss, and Efficiency Estimates for c-Si PERC Modules Enhanced with Downconverting Films and Nanocomposites

Abstract: Downconversion is an attractive process to enhance the performance of photovoltaic devices, enhancing conversion efficiency by both increasing photon flux into the active layers and improving the spectral response. The achievable efficiency enhancement, however, depends on the coupling efficiency between the downconverting material and the solar cell and on the placement and method of incorporation into the photovoltaic module. This study uses a combination of wave and geometrical optics to model the coupling … Show more

“…(3) Sub-band-gap energy photon loss occurs when photon energy is insufficient to activate the semiconductor and produce pairs of electrons and holes. (4) High energy can only transfer one electron to the conduction band, and excess energy is lost as heat (thermalization). − Under nonconcentrated AM1.5 light, these fundamental losses directly result in an efficiency limit of 30% for all commonly used single-junction solar cells …”

Comprehensive Review on Downconversion/Downshifting Silicate-Based Phosphors for Solar Cell Applications

“…(3) Sub-band-gap energy photon loss occurs when photon energy is insufficient to activate the semiconductor and produce pairs of electrons and holes. (4) High energy can only transfer one electron to the conduction band, and excess energy is lost as heat (thermalization). − Under nonconcentrated AM1.5 light, these fundamental losses directly result in an efficiency limit of 30% for all commonly used single-junction solar cells …”

Comprehensive Review on Downconversion/Downshifting Silicate-Based Phosphors for Solar Cell Applications