Improved synthesis of cobalt‐doped TiO2 catalyst using ultrasound and subsequent application for Acid Violet 7 degradation

IF 1.8 4区 工程技术 Q3 Chemical Engineering
Prerna Pandey, Parag R. Gogate
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引用次数: 0

Abstract

The current investigation deals with improving the synthesis of cobalt‐doped titanium dioxide (TiO2) utilizing both ultrasound‐assisted and conventional impregnation methods with an objective to obtain better catalyst characteristics. The impacts of process parameters such as sonication power, irradiation time, duty cycle and precursor doping on the catalyst characteristics have been analysed to optimize the catalyst characteristics including its particle size. Different characterization methods, including XRD, BET, TEM and FTIR have been used to compare the catalysts produced using both approaches under optimal conditions. Catalyst synthesized at 1 mol% doping, 90 min as irradiation time, 80 W as sonication power and 50% as duty cycle showed a minimum particle size of 231 nm and surface area of 9.2 m2/g. The catalyst obtained utilizing the ultrasound‐assisted technique was obtained in significantly lesser time (90 min) compared to the catalyst obtained using the conventional approach (24 h). Photocatalytic oxidation tests carried out to determine the activity also showed that the Co‐doped TiO2 catalyst obtained ultrasonically showed maximum activity for degradation of Acid Violet 7 in conjunction with H2O2 at the optimal loading.
利用超声波改进掺钴 TiO2 催化剂的合成及其在酸性紫 7 降解中的应用
目前的研究涉及利用超声辅助法和传统浸渍法改进掺钴二氧化钛 (TiO2) 的合成,目的是获得更好的催化剂特性。研究分析了超声功率、辐照时间、占空比和前驱体掺杂等工艺参数对催化剂特性的影响,以优化催化剂特性,包括其粒径。使用不同的表征方法,包括 XRD、BET、TEM 和 FTIR,对在最佳条件下使用两种方法生产的催化剂进行了比较。在掺杂量为 1 摩尔%、辐照时间为 90 分钟、超声功率为 80 瓦、占空比为 50%的条件下合成的催化剂最小粒径为 231 纳米,表面积为 9.2 平方米/克。与传统方法(24 小时)相比,利用超声辅助技术获得催化剂的时间(90 分钟)大大缩短。为确定活性而进行的光催化氧化试验也表明,在最佳负载量下,通过超声技术获得的掺钴二氧化钛催化剂在降解酸性紫 7 和 H2O2 时表现出最大活性。
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来源期刊
Asia-Pacific Journal of Chemical Engineering
Asia-Pacific Journal of Chemical Engineering 工程技术-工程:化工
CiteScore
3.50
自引率
11.10%
发文量
111
审稿时长
2.8 months
期刊介绍: Asia-Pacific Journal of Chemical Engineering is aimed at capturing current developments and initiatives in chemical engineering related and specialised areas. Publishing six issues each year, the journal showcases innovative technological developments, providing an opportunity for technology transfer and collaboration. Asia-Pacific Journal of Chemical Engineering will focus particular attention on the key areas of: Process Application (separation, polymer, catalysis, nanotechnology, electrochemistry, nuclear technology); Energy and Environmental Technology (materials for energy storage and conversion, coal gasification, gas liquefaction, air pollution control, water treatment, waste utilization and management, nuclear waste remediation); and Biochemical Engineering (including targeted drug delivery applications).
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