Energy band engineering in CsXBr 3 (X = Ge, Sn)/Janus MoSSe heterojunctions for photovoltaic applications
Key Points
This research aims to explore the design and impact of energy band engineering in CsXBr3/MoSSe heterojunctions for photovoltaic applications.
Utilized van der Waals interactions for material stacking
Engineered energy bands in CsXBr3 and MoSSe
Analyzed photovoltaic performance metrics
Demonstrated enhanced efficiency in photovoltaic applications
Achieved significant improvements in energy conversion rates
Proven effectiveness of van der Waals structures in functional material design
Abstract
Perovskite-based materials enable the stacking of different components through van der Waals (vdW) interactions, offering unprecedented flexibility in designing functional materials.
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Energy band engineering in CsXBr 3 (X = Ge, Sn)/Janus MoSSe heterojunctions for photovoltaic applications | Synapse