SnS2: A piezocatalytic material for efficient degradation of ciprofloxacin

IF 3.6 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Solid State Sciences Pub Date : 2024-08-01 Epub Date: 2024-07-04 DOI:10.1016/j.solidstatesciences.2024.107622

Huiqin Zhang , Xiaohui Huang , Guoping Li , Yinghua Lan , Yanhui Zhang

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Abstract

Tin disulfide (SnS₂), as a two-dimensional transition metal sulfide with similar electronic or structural properties, has been calculated to have the possibility of piezoelectricity. SnS₂ was prepared by different methods, the structure of materials were characterized by XRD and FT-IR. Then the morphology and surface elements of materials were characterized by SEM and XPS. Through the detection of PFM and electrochemical transient currents, the results show that the SnS₂ samples prepared by coprecipitation method have piezoelectric characteristics and current can be generated by applying mechanical stirring force. Comparing the materials that prepared by coprecipitation method, hydrothermal method and commercially purchased SnS₂, it was found that the degradation rate of ciprofloxacin by the material prepared by the coprecipitation method could reach 93 % after 1 h. Through characterization, it is speculated that the piezocatalytic activity of the coprecipitation material is due to sodium ion doping. It is found that the preparation method and the introduction of heteroatoms have a great influence on the piezocatalytic activity. It provides a way for subsequent researchers to improve the performance of materials from material design.

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SnS2：高效降解环丙沙星的压电催化材料

二硫化锡（SnS）作为一种具有类似电子或结构特性的二维过渡金属硫化物，经计算可能具有压电性。通过不同的方法制备了 SnS，并利用 XRD 和 FT-IR 对材料的结构进行了表征。然后用扫描电镜和 XPS 表征了材料的形貌和表面元素。通过检测 PFM 和电化学瞬态电流，结果表明共沉淀法制备的 SnS 样品具有压电特性，施加机械搅拌力即可产生电流。对比共沉淀法、水热法制备的材料和市售 SnS，发现共沉淀法制备的材料在 1 小时后对环丙沙星的降解率可达 93%。研究发现，制备方法和杂原子的引入对压电催化活性有很大影响。这为后续研究人员从材料设计上提高材料性能提供了一条途径。

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来源期刊

Solid State Sciences 化学-无机化学与核化学

CiteScore

6.60

自引率

2.90%

发文量

214

审稿时长

27 days

期刊介绍： Solid State Sciences is the journal for researchers from the broad solid state chemistry and physics community. It publishes key articles on all aspects of solid state synthesis, structure-property relationships, theory and functionalities, in relation with experiments. Key topics for stand-alone papers and special issues: -Novel ways of synthesis, inorganic functional materials, including porous and glassy materials, hybrid organic-inorganic compounds and nanomaterials -Physical properties, emphasizing but not limited to the electrical, magnetical and optical features -Materials related to information technology and energy and environmental sciences. The journal publishes feature articles from experts in the field upon invitation. Solid State Sciences - your gateway to energy-related materials.