催化作用
选择性
钙钛矿(结构)
碳氢化合物
甲烷氧化偶联
产量(工程)
甲烷
碱土金属
碱金属
无机化学
材料科学
氧气
化学
化学工程
相(物质)
晶体结构
Boosting(机器学习)
金属
多相催化
氧化还原
作者
Zeng Liu,Tianju Chen,Caixia Zhu,Dominic Yellezuome,Jinhu Wu
标识
DOI:10.1002/cctc.202501461
摘要
Abstract An in‐situ synthesis method is proposed to incorporate alkaline earth metals, such as Ca, Sr, and Ba, into the A‐site of the perovskite material LaAlO 3 , enabling precise regulation of their proportions in this research. Alkali metals such as Li, Na, and K were then introduced via an impregnation method to enhance the catalyst's basicity and improve its OCM performance. Among the catalysts studied, the composition with a La to Sr ratio of 7:3, significantly increased oxygen vacancies and enhanced the O 2− conduction, thereby boosting catalytic activity. Moreover, the emergence of a new SrO crystal phase within the original catalyst improved selectivity for C 2+ hydrocarbon products. At 850 °C, the OCM reaction catalyzed by this material increased the yield of C 2+ hydrocarbons from 9.3% to 13.8%. Further modification through immersion in 0.6 mol of Li enhanced the catalyst's electrophilicity, effectively suppressing excessive oxidation of CH 4 and its products. This process also introduced new basic active centers in the form of Li 2 O 2 , further enhancing OCM performance. As a result, the maximum C 2+ hydrocarbon yield at 850 °C was elevated to 16.7%. This study provides a modification strategy to effectively enhance the reactive performance of perovskite OCM catalysts.
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