Ruoting Zhao scite author profile

Multi‐metallic halides of group IA and IB metals are emerged as a new class of color tunable emitters. While chalcogenides and perovskites are extensively studied, these families of materials are little explored. In comparison, herein, lead and cadmium free bimetallic Cs‐Ag‐X (X = Cl, Br, I) halides are reported where the larger ion Ag+ helped in incorporating all the halide ions which in turn tune their emission color in spanning from 397 nm (violet) to 820 nm (near infrared) as a function of their composition. The synthesis method adopted here is the solvent free ball milling of respective halides of Cs and Ag and took the record shortest time and in bulk scale. From decay lifetimes, emissions from these bimetallic halides are found as a result of fast recombination of self‐trapped excitons, which exhibited not only reasonably high quantum yield in the range of 17–68% but also excellent stability to air and moisture under ambient conditions. These also show wide Stokes shift with relatively longer decay lifetimes ranging above the exciton and below the surface trap or dopant induced emissions of inorganic semiconductors, indicating a new class of materials having unique identity of their optical behaviors.

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JAMIP: an artificial-intelligence aided data-driven infrastructure for computational materials informatics

Zhao

Zhou

Xing

et al. 2021

Science Bulletin

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Global instability index as a crystallographic stability descriptor of halide and chalcogenide perovskites

Feng

Zhao

Wang

et al. 2022

Journal of Energy Chemistry

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Ruoting Zhao

Color Tunable Self‐Trapped Emissions from Lead‐Free All Inorganic IA‐IB Bimetallic Halides Cs‐Ag‐X (X = Cl, Br, I)

JAMIP: an artificial-intelligence aided data-driven infrastructure for computational materials informatics

Global instability index as a crystallographic stability descriptor of halide and chalcogenide perovskites

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