Palladium-Containing Catalysts Based on Functionalized Carbon Nanofibers for the Dehydrogenation of Methylcyclohexane

IF 1.3 4区化学 Q4 CHEMISTRY, PHYSICAL

Kinetics and Catalysis Pub Date : 2023-12-12 DOI:10.1134/S0023158423060174

G. B. Veselov, D. M. Shivtsov, S. D. Afonnikova, I. V. Mishakov, A. A. Vedyagin

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Abstract

The activity of palladium-containing catalysts based on functionalized carbon nanofibers prepared by an incipient wetness impregnation method in the dehydrogenation reaction of methylcyclohexane was investigated. Methylcyclohexane is considered as one of the most promising liquid hydrogen carriers. The dependence of the catalytic characteristics of the samples on the functionalization conditions of carbon nanofibers was studied. Using temperature-programmed desorption, it was shown that an increase in the treatment time of carbon nanofibers in concentrated nitric acid from 1 to 3 h increased the number of hydroxyl groups on their surface, and treatment for 6 h contributed to a rise in the concentration of carboxyl groups and their derivatives (esters and anhydrides). Additional calcination of the functionalized nanofibers in an inert atmosphere at 530°C yielded a sample containing predominantly hydroxyl groups. The presence of hydroxyl groups on the surface of the carbon material had a positive effect on the performance of the catalysts, while the presence of carboxyl groups led to a decrease in the yield of toluene. It was assumed that the observed differences in catalyst activity were due to differences in the dispersion and localization of palladium particles.

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基于功能化碳纳米纤维的含钯催化剂用于甲基环己烷的脱氢反应

研究了采用初湿浸渍法制备的基于功能化碳纳米纤维的含钯催化剂在甲基环己烷脱氢反应中的活性。甲基环己烷被认为是最有前途的液态氢载体之一。研究了样品的催化特性与碳纳米纤维功能化条件的关系。通过使用温度编程解吸法，研究表明将纳米碳纤维在浓硝酸中的处理时间从 1 小时增加到 3 小时，会增加其表面羟基的数量，而处理 6 小时则会增加羧基及其衍生物（酯和酸酐）的浓度。在 530°C 的惰性气氛中对功能化纳米纤维进行进一步煅烧，可得到主要含有羟基的样品。碳材料表面羟基的存在对催化剂的性能有积极影响，而羧基的存在则导致甲苯产量的降低。据推测，所观察到的催化剂活性差异是由于钯颗粒的分散和定位不同造成的。

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来源期刊

Kinetics and Catalysis 化学-物理化学

CiteScore

2.10

自引率

27.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Kinetics and Catalysis Russian is a periodical that publishes theoretical and experimental works on homogeneous and heterogeneous kinetics and catalysis. Other topics include the mechanism and kinetics of noncatalytic processes in gaseous, liquid, and solid phases, quantum chemical calculations in kinetics and catalysis, methods of studying catalytic processes and catalysts, the chemistry of catalysts and adsorbent surfaces, the structure and physicochemical properties of catalysts, preparation and poisoning of catalysts, macrokinetics, and computer simulations in catalysis. The journal also publishes review articles on contemporary problems in kinetics and catalysis. The journal welcomes manuscripts from all countries in the English or Russian language.