Promising photovoltaic and solid-state-lighting materials: two-dimensional Ruddlesden–Popper type lead-free halide double perovskites Cs<sub>n+1</sub>In<sub>n/2</sub>Sb<sub>n/2</sub>I<sub>3n+1</sub>(<i>n</i>= 3) and Cs<sub>n+1</sub>In<sub>n/2</sub>Sb<sub>n/2</sub>Cl<sub>3n+1</sub>/Cs<sub>m+1</sub>Cu<sub>m/2</sub>Bi<sub>m/2</sub>Cl<sub>3m+1</sub>(<i>n</i>= 3,<i>m</i>= 1) - Concepedia

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Promising photovoltaic and solid-state-lighting materials: two-dimensional Ruddlesden–Popper type lead-free halide double perovskites Cs<sub>n+1</sub>In<sub>n/2</sub>Sb<sub>n/2</sub>I<sub>3n+1</sub>(<i>n</i>= 3) and Cs<sub>n+1</sub>In<sub>n/2</sub>Sb<sub>n/2</sub>Cl<sub>3n+1</sub>/Cs<sub>m+1</sub>Cu<sub>m/2</sub>Bi<sub>m/2</sub>Cl<sub>3m+1</sub>(<i>n</i>= 3,<i>m</i>= 1)

27

Citations

72

References

2018

Year

Meng Wu, Junjie Shi, Min Zhang, Yu-lang Cen, Wenhui Guo, Yaohui Zhu

Journal of Materials Chemistry C

Optical MaterialsSuitable Direct BandgapsEngineeringCarrier MobilityHalide PerovskitesOptoelectronic DevicesUltrahigh Optical AbsorptionPhotovoltaicsSemiconductorsSolar Cell StructuresQuantum MaterialsSolid-state-lighting MaterialsMaterials ScienceInorganic ElectronicsOptoelectronic MaterialsPerovskite MaterialsLead-free PerovskitesOptoelectronicsElectronic MaterialsPerovskite Solar CellApplied PhysicsSolar CellsFunctional MaterialsSolar Cell Materials

Abstract

Promising 2D Cs<sub>4</sub>In<sub>3/2</sub>Sb<sub>3/2</sub>I<sub>10</sub>and Cs<sub>4</sub>In<sub>3/2</sub>Sb<sub>3/2</sub>Cl<sub>10</sub>/Cs<sub>2</sub>Cu<sub>1/2</sub>Bi<sub>1/2</sub>Cl<sub>4</sub>lead-free halide double perovskites have suitable direct bandgaps, and ultrahigh optical absorption and carrier mobility.

References

	Year	Citations

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