Direct Conversion of Syngas to Higher Alcohols over a CuCoAl|t‐ZrO<sub>2</sub> Multifunctional Catalyst
Chao Huang, Can Zhu, Mingwei Zhang, Yongwu Lu, Qianhao Wang, Heming Qian, Jiangang Chen, Kegong Fang
Abstract
Abstract Selective synthesis of higher alcohols from syngas is promising but remains challenging owing to the low stability and selectivity towards higher alcohols. Here we introduce a CuCoAl|t‐ZrO 2 (t denotes tetragonal crystal phase) multifunctional catalyst that can achieve an alcohol selectivity of 64.8 % with 79.6 % C 2+ OH, and a total selectivity of alcohols and olefins to 81.7 %. The proper proximity was tuned to increase selectivity towards alcohols and decrease the selectivity towards hydrocarbons. The lower surface [H*]/[C*] ratio due to the stronger basic sites of the CuCoAl|t‐ZrO 2 limited alkyl (CH x ) species hydrogenation, and promoted CO insertion and carbon chain growth, resulting in improving the alcohols selectivity. Meanwhile, the weaker adsorption of bridge‐type adsorbed CO and the lower decomposition rate of multi‐bonded adsorbed CO over CuCoAl|t‐ZrO 2 inhibited hydrocarbon generation. The selective promotion of the reaction route via the synergetic effect between CuCoAl and t‐ZrO 2 was proposed to boost higher alcohols selectivity. This work may aid the rational design of effective multifunctional catalyst with synergistic effects for tuning selectivity.