The Role of the Oxygen Vacancies in the Synthesis of 1, 3‐Butadiene from Ethanol

催化作用 脱氢 乙醛 电子顺磁共振 化学 氧气 1,3-丁二烯 无机化学 氧化物 乙醇 光化学 药物化学 有机化学 物理 核磁共振
作者
Luciano H. Chagas,Priscila C. Zonetti,Caio R. V. Matheus,Carlos R.K. Rabello,Odivaldo C. Alves,Lucia G. Appel
出处
期刊:Chemcatchem [Wiley]
卷期号:11 (22): 5625-5632 被引量:47
标识
DOI:10.1002/cctc.201901243
摘要

Abstract The t ‐ZrO 2 doped with Zn catalyst and t ‐ZrO 2 as reference were employed in the butadiene synthesis from ethanol. Both catalysts were characterized by NH 3 ‐TPD, CO 2 ‐TPD, TPSR, the MPV model reaction, ICP, BET and EPR. Adding 0.2 wt% Zn to t ‐ZrO 2 , the selectivity to butadiene increases three fold whereas the one to ethylene decreases. When ZrO 2 is doped, the number of basic sites increases and the number of acid sites decreases. The TPSR spectra indicate that the acetaldehyde generation is the rate limiting step of the butadiene synthesis. The slowest step of the acetaldehyde generation is the H abstraction by a strong basic site. The EPR spectra show the replacement of Zr 4+ by Zn 2+ in the lattice of the t ‐ZrO 2 oxide . This phenomenon forms pairs of oxygen vacancies and coordinatively unsaturated Zr 4+ ions (cus), which are strong basic sites and acid sites, respectively. Doping ZrO 2 with Zn, the ethanol dehydrogenation and the butadiene synthesis are promoted not only due to the changes in the acidity and basicity of the catalyst but mainly because of the generation of oxygen vacancies and cus pairs during the reaction. These oxygen vacancies seem to behave as strong Brønsted basic sites.
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