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Intrinsic vs. extrinsic STE emission enhancement in ns sup(2) ion doped metal (Cd, In) halide hybrids

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dc.contributor.author Das, D.
dc.contributor.author Bakthavatsalam, R.
dc.contributor.author Hathwar, V.R.
dc.contributor.author Pallepogu, R.
dc.contributor.author Kundu, J.
dc.date.accessioned 2023-05-03T09:32:37Z
dc.date.available 2023-05-03T09:32:37Z
dc.date.issued 2023
dc.identifier.citation Journal of Materials Chemistry C. 11(11); 2023; 3855-3864. en_US
dc.identifier.uri https://doi.org/10.1039/D2TC04361K
dc.identifier.uri http://irgu.unigoa.ac.in/drs/handle/unigoa/7014
dc.description.abstract Broadband emission in zero dimensional metal (Sb sup(3+), In sup(3+), Cd sup(2+), and Bi sup(3+)) halide hybrids originates from self-trapping of excitons within the metal-halide units (intrinsic STEs). Regulation of intrinsic STE emission can be affected by introducing extrinsic ns sup(2) ion based dopants. Recently, Sb sup(3+) doping of a Cd halide host system (Rb sub(4)CdCl sub(6)) has been claimed to enhance host intrinsic STE emission through lattice softening (stereochemical activity of dopant ions). However, the similarity of photo-physical properties of Cd host (intrinsic STE) and Sb sup(3+) dopant (extrinsic STE) emission precludes a clear understanding of the origin/nature of the enhanced emission (intrinsic vs. extrinsic STEs). Reported herein is the synthesis and characterization of ns sup(2) ion doped Cd and In based metal halide hybrids [(C sub(6)H sub(18)N sub(3)) sub(2) (In sub(0.7)Sb sub(0.3)Cl sub(6)) sub(2).2(H sub(2)O) abbreviated as AEPipInSbCl and (H sub(3)O)(C sub(6)H sub(18)N sub(3)) sub(3) (Cd sub(0.94)Sb sub(0.06)Cl sub(6)) sub(2).2Cl.2(H sub(2)O) abbreviated as AEPipCdSbCl] that show enhanced and efficient broadband emission. Detailed optical characterization of doped Cd and In host systems conclusively asserts that the enhanced emission originates from dopant extrinsic STE emission and not from host intrinsic STE emission. Furthermore, the observed dependence of emission PLQY on doping efficiency clearly supports dopant based extrinsic STE as the origin/nature of enhanced emission. A maximum PLQY of 98 percent (near unity) was achieved for 5 percent Sb sup(3+) doping in the AEPipCdCl system. Strong excitation dependent emission in host systems (in contrast to excitation independent emission in doped systems) allows clear distinction between host intrinsic and dopant extrinsic STE emission thereby providing insight to the operative emission mechanism. This work highlights the role of dopants in shaping the emission profile and provides a requisite understanding of the mechanism of enhancement of extrinsic dopant STE emission. en_US
dc.publisher Royal Society of Chemistry en_US
dc.subject Physics en_US
dc.title Intrinsic vs. extrinsic STE emission enhancement in ns sup(2) ion doped metal (Cd, In) halide hybrids en_US
dc.type Journal article en_US
dc.identifier.impf y


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