氧化锆球激发的SbSI/SbS纳米复合材料对亚甲基蓝的压电降解动力学及热力学研究

Kinetic and thermodynamic study in piezo degradation of methylene blue by SbSI/SbS nanocomposites stimulated by zirconium oxide balls.

作者信息

Babakr Karukh A, Amiri Omid, Guo L Jay, Rashi Mohammad Ali, Mahmood Peshawa H

机构信息

Chemistry Department, College of Science, University of Raparin, Rania, Kurdistan Region, Iraq.

Faculty of Chemistry, Razi University, Kermanshah, 6714414971, Iran.

出版信息

Sci Rep. 2022 Sep 9;12(1):15242. doi: 10.1038/s41598-022-19552-3.

DOI:10.1038/s41598-022-19552-3

PMID:36085338

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9463189/

Abstract

Mechanical energy harvesting by piezoelectric materials to drive catalysis reactions received extensive attention for environmental remediation. In this work, SbSI/SbS nanocomposites were synthesized as a catalyst. ZrO balls were used as an alternative mechanical force to ultrasonic for stimulating the piezocatalyst for the first time. The kinetics and thermodynamics of the piezo degradation of methylene blue (MB) were studied deeply. Besides the effect of the type of mechanical force, the number of ZrO balls, and temperature of the reaction on the degradation efficiency were studied. Here mechanical energy came from the collision of the ZrO balls with the catalyst particles. Using ZrO balls instead of ultrasonic vibration led to enhance degradation efficiency by 47% at 30 ± 5 °C. A kinetic study revealed that piezo degradation of methylene blue (MB) by SbSI/SbS catalyst followed pseudo-second-order kinetics. Based on thermodynamic results piezo degradation of MB was an exothermic reaction.

摘要

通过压电材料收集机械能以驱动催化反应在环境修复方面受到了广泛关注。在这项工作中，合成了SbSI/SbS纳米复合材料作为催化剂。首次使用ZrO球作为超声的替代机械力来刺激压电催化剂。深入研究了亚甲基蓝（MB）的压电降解动力学和热力学。除了研究机械力类型、ZrO球数量和反应温度对降解效率的影响外，这里的机械能来自ZrO球与催化剂颗粒的碰撞。在30±5°C下，使用ZrO球代替超声振动可使降解效率提高47%。动力学研究表明，SbSI/SbS催化剂对亚甲基蓝（MB）的压电降解遵循准二级动力学。基于热力学结果，MB的压电降解是一个放热反应。

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氧化锆球激发的SbSI/SbS纳米复合材料对亚甲基蓝的压电降解动力学及热力学研究

Kinetic and thermodynamic study in piezo degradation of methylene blue by SbSI/SbS nanocomposites stimulated by zirconium oxide balls.

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