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Facile hydrothermal synthesis of hydrotropic Cu2ZnSnS4 nanocrystal quantum dots : band-gap engineering and phonon confinement effect

机译：易溶的水热合成各向同性的Cu2ZnSnS4纳米晶体量子点：带隙工程和声子约束效应

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We developed a facile hydrothermal method for synthesizing ultrafine size-controllable earth-abundant Cu2ZnSnS4 (CZTS) nanocrystals using simple Cu(II), Zn(II) and Sn(II) inorganic salts and thiourea in a mixed ethylenediamine and di-water solution as precursors. X-ray diffraction, Raman scattering and transmission electron microscopy confirm that pure kesterite structure CZTS nanocrystals have been synthesized at temperatures as low as 180 degrees C. Broadening of Raman peaks and blue-shift of the absorption edge is attributed to quantum confinement within the nanocrystals. The hydrophilism and tunable band-gap of the CZTS nanocrystals show the potential applications of the nanocrystals for biological labelling and quantum dot based solar cells.

机译：我们开发了一种简便的水热方法，该方法使用简单的Cu（II），Zn（II）和Sn（II）无机盐和硫脲在乙二胺和二水的混合水溶液中合成超细，尺寸可控的地球上大量的Cu2ZnSnS4（CZTS）纳米晶体。前体。 X射线衍射，拉曼散射和透射电子显微镜证实，纯硅藻土结构的CZTS纳米晶体是在低至180摄氏度的温度下合成的。拉曼峰的展宽和吸收边缘的蓝移归因于纳米晶体内的量子限制。。 CZTS纳米晶体的亲水性和可调带隙显示了纳米晶体在生物标记和基于量子点的太阳能电池中的潜在应用。

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Liu WC; Guo BL; Wu XS; Zhang FM; Mak CL; Wong KH;
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年度 2013
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1. Facile hydrothermal synthesis of hydrotropic Cu2ZnSnS4 nanocrystal quantum dots: band-gap engineering and phonon confinement effect [J] . W. C. Liu, B. L. Guo, X. S. Wu Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013,第9期

机译：Cu 2 ZnSnS 4纳米晶量子点的简便水热合成：带隙工程和声子约束效应。
2. Confinement of acoustic phonons in CuCl nanocrystal quantum dots [J] . Goupalov SV., Merkulov IA. Physica status solidi, B. Basic research . 2001,第3期

机译：CuCl纳米晶体量子点中声子的局限
3. Raman characterization of Cu2ZnSnS4 nanocrystals: phonon confinement effect and formation of CuxS phases [J] . Havryliuk Ye., Valakh M. Ya., Dzhagan V., RSC Advances . 2018,第54期

机译：Cu2zNSN4纳米晶体的拉曼特征：声子限制效果和包装阶段的形成
4. A facile and low cost synthesis of Cu2ZnSnS4 nanocrystals formed by hydrothermal method [C] . Woo Ri Bae, Seung Wook Shin, G.L.Agawane, International photovoltaic science and engineering conference . 2012

机译：水热法形成Cu2ZnSnS4纳米晶体的简便，低成本合成
5. Hydrothermal synthesis of near-infra-red emitting quantum dots for fluorescent and magnetic bimodal imaging. [D] . Saha, Ajoy K. 2011

机译：水热合成近红外发射量子点的荧光和磁性双峰成像。
6. Hydrothermal Synthesis of Aqueous-Soluble Copper Indium Sulfide Nanocrystals and Their Use in Quantum Dot Sensitized Solar Cells [O] . Calink I. L. Santos, Wagner S. Machado, Karl David Wegner, 2020

机译：水热合成水溶性铜铟硫化物纳米晶体及其在量子点敏化太阳能电池中的应用
7. Facile synthesis of ultrafine Cu2ZnSnS4 nanocrystals by hydrothermal method for use in solar cells [O] . Liu W, Guo B, Mak C, 2013

机译：水热法轻松合成超细Cu2ZnSnS4纳米晶体用于太阳能电池
8. Ion beam synthesis of nanocrystals and quantum dots in optical materials [R] . White, C. W. , Budai, J. D. , Withrow, S. P. , 1996

机译：离子束合成光学材料中的纳米晶体和量子点

Facile hydrothermal synthesis of hydrotropic Cu2ZnSnS4 nanocrystal quantum dots : band-gap engineering and phonon confinement effect

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