Shenjie Li scite author profile

Water-soluble Cu-In-S/ZnS core/shell quantum dots with a photoluminescence quantum yield up to 38% and an emission peak tunable from 543 to 625 nm have been successfully synthesized. All of the synthetic procedures were conducted in an aqueous solution at 95 °C under open-air conditions. L-Glutathione and sodium citrate were used as the dual stabilizing agents to balance the reactivity between copper and indium ions.

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Large-Scale Synthesis of Well-Dispersed Copper Nanowires in an Electric Pressure Cooker and Their Application in Transparent and Conductive Networks

Chen

Huang

et al. 2014

Inorg. Chem.

110

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We present a novel large-scale synthetic method for well-separated copper nanowires (CuNWs) in a commercial electric pressure cooker under mild reaction conditions. CuNWs (∼2.1 g) can be prepared in a batch with the cost of $4.20/g. Well-dispersed polyvinylpyrrolidone-capped CuNWs were obtained via a ligand-exchange method. The transparent and conductive CuNW networks with excellent electrical conductivity and high optical transmittance (30 Ω/□ at 86% transmittance, respectively) were fabricated by a spin-coating process.

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Alloyed (ZnS)_x(Cu₂SnS₃)_1−xand (CuInS₂)_x(Cu₂SnS₃)_1−xnanocrystals with arbitrary composition and broad tunable band gaps

et al. 2011

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Shenjie Li

Green and Facile Synthesis of Water-Soluble Cu–In–S/ZnS Core/Shell Quantum Dots

Large-Scale Synthesis of Well-Dispersed Copper Nanowires in an Electric Pressure Cooker and Their Application in Transparent and Conductive Networks

Alloyed (ZnS)_x(Cu₂SnS₃)_1−xand (CuInS₂)_x(Cu₂SnS₃)_1−xnanocrystals with arbitrary composition and broad tunable band gaps

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Shenjie Li

Green and Facile Synthesis of Water-Soluble Cu–In–S/ZnS Core/Shell Quantum Dots

Large-Scale Synthesis of Well-Dispersed Copper Nanowires in an Electric Pressure Cooker and Their Application in Transparent and Conductive Networks

Alloyed (ZnS)x(Cu2SnS3)1−xand (CuInS2)x(Cu2SnS3)1−xnanocrystals with arbitrary composition and broad tunable band gaps

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Alloyed (ZnS)_x(Cu₂SnS₃)_1−xand (CuInS₂)_x(Cu₂SnS₃)_1−xnanocrystals with arbitrary composition and broad tunable band gaps