使用 Cacumen Platycladi 提取物作为还原剂制备氧化 2-苯基乙醇的 Au/TiO2 催化剂

IF 1.3 4区 工程技术 Q3 CHEMISTRY, ORGANIC Petroleum Chemistry Pub Date : 2024-06-27 DOI:10.1134/S0965544124030125
Jiali Xiao, Longsheng Zhou, Dangqin Jin, Hui Zhou, Dongfan Liu, Bingyun Zheng
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引用次数: 0

摘要

摘要 通过用 Cacumen Platycladi 提取物还原 HAuCl4 制备了一种支撑金催化剂。然后将该催化剂用于模型反应中 2-苯乙醇的氧化。我们的研究评估了各种制备条件的影响,包括金负载率和煅烧温度。此外,我们还探讨了反应温度和反应时间对金/二氧化钛催化剂催化性能的影响。实验结果表明,金负载率为 1.3 wt %、煅烧温度为 400°C 的 Au/TiO2 催化剂的催化效果显著。在特定的反应条件下(0.3 克催化剂、220°C、3.0 兆帕、2.5 小时),2-苯基乙醇的转化率达到 45.3%,目标产物(苯乙醛)的选择性为 59.6%,产率为 27.0%。此外,催化性能在重复使用 8 次后仍然保持稳定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Preparation of the Au/TiO2 Catalyst for the Oxidation of 2-Phenylethyl Alcohol using a Cacumen Platycladi Extract as a Reducing Agent

A Supported gold catalyst was prepared by reduction of HAuCl4 with the Cacumen Platycladi extract. This catalyst was then used for oxidation of 2-phenylethyl alcohol in a model reaction. Our study evaluated the effect of various preparation conditions, including the Au loading ratio and calcination temperature. Additionally, we explored the influence of the reaction temperature and reaction time on the catalytic performance of a Au/TiO2 catalyst. Our experimental findings revealed notable results for the Au/TiO2 catalyst characterized by the Au loading of 1.3 wt % and calcinated at 400°C. Under specific reaction conditions (0.3 g catalyst, 220°C, 3.0 MPa, 2.5 h), the conversion of 2-phenylethyl alcohol reached 45.3 and a 59.6% selectivity and a 27.0% yield of the target product (phenylacetaldehyde). In addition, catalytic performance remained stable after 8 repeated uses.

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来源期刊
Petroleum Chemistry
Petroleum Chemistry 工程技术-工程:化工
CiteScore
2.50
自引率
21.40%
发文量
102
审稿时长
6-12 weeks
期刊介绍: Petroleum Chemistry (Neftekhimiya), founded in 1961, offers original papers on and reviews of theoretical and experimental studies concerned with current problems of petroleum chemistry and processing such as chemical composition of crude oils and natural gas liquids; petroleum refining (cracking, hydrocracking, and catalytic reforming); catalysts for petrochemical processes (hydrogenation, isomerization, oxidation, hydroformylation, etc.); activation and catalytic transformation of hydrocarbons and other components of petroleum, natural gas, and other complex organic mixtures; new petrochemicals including lubricants and additives; environmental problems; and information on scientific meetings relevant to these areas. Petroleum Chemistry publishes articles on these topics from members of the scientific community of the former Soviet Union.
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