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W2408669828 abstract "The synthesis of metal arsenide semiconductor nanocrystals is challenging compared to other conventional materials (e.g., II–VI family CdSe) due to a high degree of covalency in crystal lattice and a lack of a variety of effective pnictide precursors. We reported here the use of [(Me3Si)2N]2AsCl (“arsenic silylamide”) to synthesize a variety of binary and tertiary quantum confined species such as InAs (III–V), Cd3As2 (II–V), and Cu3AsS4 (enargite, I3–V–VI4) nanocrystals. The physical properties of this reagent resolve many issues, especially concerning safety, with other precursors such as pyrophoric (TMS)3As and highly toxic AsH3 gas. Furthermore, usage of this reagent has allowed for the realization of enargite quantum rods for the first time. The role of arsenic silylamide in the reaction mechanism to form InAs has been elucidated with a combination of NMR spectroscopy as well as quantum chemical modeling. Cd3As2 and Cu3AsS4 nanostructures form via a diffusion mechanism." @default.
W2408669828 created "2016-06-24" @default.
W2408669828 creator A5034245408 @default.
W2408669828 creator A5035278733 @default.
W2408669828 creator A5043186538 @default.
W2408669828 date "2016-05-24" @default.
W2408669828 modified "2023-10-16" @default.
W2408669828 title "Arsenic Silylamide: An Effective Precursor for Arsenide Semiconductor Nanocrystal Synthesis" @default.
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W2408669828 doi "https://doi.org/10.1021/acs.chemmater.6b01577" @default.
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