从光电Bi2O2S到超导Bi4O4S3的氧硫化铋热分解。

Thermal decomposition of bismuth oxysulfide from photoelectric Bi2O2S to superconducting Bi4O4S3.

作者信息

Zhang Xian, Liu Yufeng, Zhang Ganghua, Wang Yingqi, Zhang Hui, Huang Fuqiang

机构信息

Beijing National Laboratory for Molecular Sciences and State Key Laboratory of Rare Earth Materials Chemistry and Applications, College of Chemistry and Molecular Engineering, and §Department of Material Science and Engineering, College of Engineering, Peking University , Beijing 100871, China.

出版信息

ACS Appl Mater Interfaces. 2015 Feb 25;7(7):4442-8. doi: 10.1021/am5092159. Epub 2015 Feb 11.

DOI:10.1021/am5092159

PMID:25644016

Abstract

With the addition of oxygen into the chain-like bismuth sulfide of Bi2S3, there are two interesting functional compounds of Bi2O2S (photoelectric) and Bi4O4S3 (superconducting) containing the PbO-like [Bi2O2] layers. Nanoscale Bi2O2S crystals with an indirect band gap of 1.12 eV are synthesized via a facile hydrothermal method. This semiconductor shows excellent photoelectric response under the irradiation of visible light lamp at room temperature. Theoretical calculations and packing factor model both indicate that the loosely packed Bi2O2S is an excellent photoelectric material. When the Bi2O2S phase was annealed at 500 °C in an evacuated quartz tube, nanocrystals of Bi4O4S3 were obtained. The powder X-ray diffraction and electron microscope analyses (SEM, TEM, EDX) confirmed the thermal decomposition from orthorhombic Bi2O2S to tetragonal Bi4O4S3. The superconducting transition temperature of Bi4O4S3 was observed to be 4.6 K from the temperature-dependence measurements of electrical resistivity and magnetic susceptibility. Our results also provide a new method utilizing thermal decomposition to prepare a new phase without high temperature reaction.

摘要

通过向链状的Bi₂S₃硫化铋中添加氧，出现了两种有趣的功能化合物，即含有类PbO的[Bi₂O₂]层的Bi₂O₂S（光电）和Bi₄O₄S₃（超导）。通过简便的水热法合成了间接带隙为1.12 eV的纳米级Bi₂O₂S晶体。这种半导体在室温下可见光照射下表现出优异的光电响应。理论计算和堆积因子模型均表明，松散堆积的Bi₂O₂S是一种优异的光电材料。当Bi₂O₂S相在抽空的石英管中于500℃退火时，获得了Bi₄O₄S₃纳米晶体。粉末X射线衍射和电子显微镜分析（SEM、TEM、EDX）证实了从正交晶系的Bi₂O₂S到四方晶系的Bi₄O₄S₃的热分解。通过电阻率和磁化率的温度依赖性测量，观察到Bi₄O₄S₃的超导转变温度为4.6 K。我们的结果还提供了一种利用热分解制备新相而无需高温反应的新方法。

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从光电Bi2O2S到超导Bi4O4S3的氧硫化铋热分解。

Thermal decomposition of bismuth oxysulfide from photoelectric Bi2O2S to superconducting Bi4O4S3.

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