Most current solar panels are fabricated via complex processes using expensive semiconductor materials,and they are rigid and heavy with a dull,black appearance.As a result of their non-aesthetic appearance and weight...Most current solar panels are fabricated via complex processes using expensive semiconductor materials,and they are rigid and heavy with a dull,black appearance.As a result of their non-aesthetic appearance and weight,they are primarily installed on rooftops to minimize their negative impact on building appearance.The large surfaces and interiors of modern buildings are not efficiently utilized for potential electric power generation.Here,we introduce dual-function solar cells based on ultrathin dopant-free amorphous silicon embedded in an optical cavity that not only efficiently extract the photogenerated carriers but also display distinctive colors with the desired angle-insensitive appearances.Light-energy-harvesting colored signage is demonstrated.Furthermore,a cascaded photovoltaics scheme based on tunable spectrum splitting can be employed to increase power efficiency by absorbing a broader band of light energy.This study pioneers a new approach to architecturally compatible and decorative thin-film photovoltaics.展开更多
基金This work was supported in part by the National Science Foundation(ECCS),Grant No.1202046The study of the interfacial charge-transport layers was supported by the Center for Solar and Thermal Energy Conversion,an Energy Frontier Research Center funded by the US Department of Energy,Office of Science,Basic Energy Sciences,under Award DE-SC0000957
文摘Most current solar panels are fabricated via complex processes using expensive semiconductor materials,and they are rigid and heavy with a dull,black appearance.As a result of their non-aesthetic appearance and weight,they are primarily installed on rooftops to minimize their negative impact on building appearance.The large surfaces and interiors of modern buildings are not efficiently utilized for potential electric power generation.Here,we introduce dual-function solar cells based on ultrathin dopant-free amorphous silicon embedded in an optical cavity that not only efficiently extract the photogenerated carriers but also display distinctive colors with the desired angle-insensitive appearances.Light-energy-harvesting colored signage is demonstrated.Furthermore,a cascaded photovoltaics scheme based on tunable spectrum splitting can be employed to increase power efficiency by absorbing a broader band of light energy.This study pioneers a new approach to architecturally compatible and decorative thin-film photovoltaics.
