Colloidal synthesis of wurtzite Cu_2CoSnS_4 nanocrystals and the photoresponse of spray-deposited thin films

Zhang X.; Bao N.; Lin B.; Gupta A.

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Colloidal synthesis of wurtzite Cu_2CoSnS_4 nanocrystals and the photoresponse of spray-deposited thin films

机译：纤锌矿型Cu_2CoSnS_4纳米晶体的胶体合成及喷涂薄膜的光响应

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Monodisperse nanocrystals of a new wurtzite phase of Cu _2CoSnS_4 (CCTS) have been synthesized using a simple solution-based method. The wurtzite CCTS nanocrystals grow in the shape of nanorods with an average length of 32 ± 2.0 and width of 16 ± 1.5 nm. The more stable stannite phase of CCTS has also been synthesized by increasing the reaction temperature or by a post-high-temperature annealing process. The band gap of wurtzite CCTS nanocrystals is determined to be 1.58 eV. Thin films prepared from the nanocrystal suspension display photoresponse behaviour with white light from a solar simulator, suggesting the potential use of CCTS as an active layer in low-cost thin-film solar cells.

机译：使用简单的基于溶液的方法合成了新的纤锌矿相Cu _2CoSnS_4（CCTS）的单分散纳米晶体。纤锌矿型CCTS纳米晶体以纳米棒的形式生长，平均长度为32±2.0，宽度为16±1.5 nm。通过提高反应温度或通过高温后退火工艺还可以合成出更稳定的CCTS锡矿相。纤锌矿型CCTS纳米晶体的带隙确定为1.58 eV。由纳米晶体悬浮液制备的薄膜在来自太阳模拟器的白光下显示出光响应行为，表明在低成本薄膜太阳能电池中有可能将CCTS用作活性层。

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《Nanotechnology》 |2013年第10期|共8页
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Zhang X.; Bao N.; Lin B.; Gupta A.;
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1. Colloidal synthesis of wurtzite Cu_2CoSnS_4 nanocrystals and the photoresponse of spray-deposited thin films [J] . Zhang X., Bao N., Lin B., Nanotechnology . 2013,第10期

机译：纤锌矿型Cu_2CoSnS_4纳米晶体的胶体合成及喷涂薄膜的光响应
2. Synthesis and characterization of Cu_2CoSnS_4 thin films prepared via radio-frequency (RF) magnetron sputtering [J] . Wang Ting, Zhan Qingfeng, Cheng Wenjuan Journal of materials science . 2019,第3期

机译：射频磁控溅射制备Cu_2CoSnS_4薄膜的合成与表征
3. Controllable Colloidal Synthesis of Tin(II) Chalcogenide Nanocrystals and Their Solution-Processed Flexible Thermoelectric Thin Films [J] . Deqiang Yin, Chaochao Dun, Xiang Gao, Small . 2018,第33期

机译：可控胶体合成锡（II）硫属化物纳米晶体及其溶液加工的柔性热电薄膜
4. Colloidal synthesis of wurtzite Cu2FeSnS4 nanocrystals [C] . Zhang Xiaoyan 2012 38th IEEE Photovoltaic Specialists Conference. . 2012

机译：纤锌矿型Cu2FeSnS4纳米晶体的胶体合成
5. Synthesis and Surface Modification of Colloidal Germanium and Germanium-based Nanocrystals for Bottom-up Assembly of Nanostructured Thin Films [D] . Dupper, Torin Joseph. 2018

机译：基于胶体锗和锗基纳米晶体的合成和表面改性纳米结构薄膜自下料组装
6. Colloidal Self-Assembly of Inorganic Nanocrystals into Superlattice Thin-Films and Multiscale Nanostructures [O] . Hongseok Yun, Taejong Paik 2019

机译：无机纳米晶体的胶体自组装成超晶格薄膜和多尺度纳米结构
7. Thin Film Solar Cells: Fine-Tuning the Sn Content in CZTSSe Thin Films to Achieve 10.8 Solar Cell Efficiency from Spray-Deposited Water-Ethanol-Based Colloidal Inks (Adv. Energy Mater. 24/2015) [O] . Gerardo Larramona, Sergiu Levcenko, Stéphane Bourdais, 2015

机译：薄膜太阳能电池：微调CZTSSE薄膜中的SN含量，从喷涂沉积的水 - 乙醇基胶体油墨中实现10.8％的太阳能电池效率（ADV。能源母体。24/2015）

Colloidal synthesis of wurtzite Cu_2CoSnS_4 nanocrystals and the photoresponse of spray-deposited thin films

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