Absorption enhancement in thin-film silicon solar cells in SOI configuration using physical and geometrical optics

Abstract: High performance in crystalline thin (-10 IJm) film silicon solar cells requires complete optical absorption over its spectral range. Geometrical schemes are ineffective due to their large feature dimensions. Enhanced optical absorption can be achieved through two mechanisms based on diffractive and physical optics. In diffractive approach, light confinement is achieved through obliquely propagating transmission orders that effectively fill the frequency space. In the physical optics approach, rigorous coupled… Show more

“…Porous silicon has been used as an alternative for a reflector layer to improve light trapping [3]. In sal material, the buried oxide (BOx) will not only provide self passivation properties but also optical properties that can be used to enhance the photovoltaic response [4]. The use of sal for solar cells has been studied previously but reported efficiencies are below 0.5%.…”

High performance thin crystalline silicon solar cell grown on silicon-on-insulator

“…Porous silicon has been used as an alternative for a reflector layer to improve light trapping [3]. In sal material, the buried oxide (BOx) will not only provide self passivation properties but also optical properties that can be used to enhance the photovoltaic response [4]. The use of sal for solar cells has been studied previously but reported efficiencies are below 0.5%.…”

High performance thin crystalline silicon solar cell grown on silicon-on-insulator