Yani Liu, Qinglei Meng, Kaili Zhang, Wanying Han, Xinrui Zheng, Yaqin Wang, Yibo Han, Jingping Wang, Haihong Wu, Mingyuan He, Buxing Han
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引用次数: 0
Abstract
Cyclohexanones are widely used chemicals and currently produced by the oxidation of the fossil feedstocks. Direct selective hydrogenation of lignin derivatives has great potential for producing these chemicals, but is challenging to obtain high yields. Here, we report that hydrotalcite-supported Pd single-atom (Pd/CHT-800) catalyst enabled the hydrogenation of the benzene ring in the aromatics without the overreaction of carbonyl group, which could afford >99.9% yield of cyclohexanones using water as the reaction medium. The reaction mechanism was systematically studied by the control experiments and detailed in situ characterizations. In the Pd/CHT-800 catalyst, the Pd-O-MgAl sites were formed, and the cooperation of the Pd atoms and calcined CHT material could not only realize the aromatic hydrogenation efficiently, but also inhibit the hydrogenation of the carbonyl group in the reaction effectively. This work provides a novel route for the sustainable production of cyclohexanones.
环己酮是一种应用广泛的化工原料,目前主要通过化石原料的氧化反应来生产。木质素衍生物的直接选择性加氢生产这些化学品具有很大的潜力,但很难获得高收率。本文报道了水滑石负载的Pd单原子催化剂(Pd/CHT-800)使芳烃中苯环的加氢不发生羰基的过度反应,以水为反应介质,环己酮的产率可达99.9%。通过对照实验和详细的原位表征,系统地研究了反应机理。在Pd/CHT-800催化剂中,形成了Pd- o - mgal位点,Pd原子与煅烧的CHT材料配合,不仅能有效实现芳香族氢化反应,还能有效抑制反应中羰基的氢化反应。本研究为环己酮的可持续生产提供了一条新的途径。
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