Junming Shi, Guoyang Gao, Can Jin, Hongqing Wu, Weizhen Wang, Yulong An, Zhen Zhou, Zhanhua Huang, Wenshuai Chen
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引用次数: 0
摘要
木质纤维素的增值转化是一种可持续的方法。光提纯生物质符合当前的环保战略。然而,光提纯生物质存在催化剂稳定性差、转化效率低的问题。在此,我们设计了果糖作为木质纤维素模型。利用 CoCNZn 的特殊共价键结构构建了普鲁士蓝涂层的异质结构。这种结构具有催化转化机制,可以加速电子转移。果糖被同时转化为增值平台化合物(5-HMF 和甲酸)和气体燃料(CO、CH4),转化率高达 92.5%,是不添加普鲁士蓝催化剂的 1.7 倍以上。果糖碳原子上的氢转移和碳转移促进了甲酸中 CO 的产生并加速了 CO 的溢出。这项工作为普鲁士蓝催化剂的开发和戊糖的转化提供了新思路。
Prussian blue analogs photocatalyst promote the evolution of value-added platform compounds via CoCNZn covalent bonds
Value-added conversion of lignocellulose is a sustainable approach. Photo-refining biomass is in line with current environmental protection strategies. However, photo-reforming biomass suffers from poor catalyst stability and low conversion efficiency. Here, we designed fructose as a lignocellulosic model. The heterogeneous structure of Prussian blue coating was constructed with a special covalent bond structure of CoCNZn. This structure has a catalytic conversion mechanism that can accelerate electron transfer. Fructose was simultaneously converted to value-added platform compounds (5-HMF and formic acid) and gaseous fuels (CO, CH4) with a conversion rate of up to 92.5%, which is more than 1.7 times than that of catalysts without adding Prussian blue. Hydrogen transfer and carbon transfer on the carbon atoms of fructose facilitates the production and accelerates the spillover of CO from formic acid. This work provides new ideas for the development of Prussian blue catalysts and the conversion of pentose.
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