Yulong Deng , Binyu Zhang , Huiru Wu , Zhuo He , Xiaorui Du , Jiayi Ou , Tianyu Ren , Haiyong Wang , Yuhe Liao , Qiying Liu , Chenguang Wang , Yanbin Cui
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引用次数: 0
Abstract
Ru/Nb2O5 is effective for furfural aqueous reductive conversion. Systematic characterization, kinetic studies and in situ DRIFT tests demonstrated that the Ruδ+ species abundance is highly correlated with the adsorption behavior of the substrate, key intermediate and product (furfural, 2-cyclopentenone, and cyclopentanone), which governs the FFR conversion rate and cyclopentanoid product selectivity.
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