First Author:Rongxiu Guo

Correspondence Author:Xiaodong Li ,Hongbin Sun,Qionglin Liang

Co author:Xinyue Zhang,Ze-Nan Hu ,Dun Niu

Journal:Journal of Environmental Chemical Engineering

Issue:1

Volume:11

Impact Factor:7.4

DOI number:10.1016/j.jece.2022.109143

Affiliation of Author(s):Department of Chemistry, Tsinghua University

Teaching and Research Group:物理化学

Place of Publication:ENGLAND

Abstract:As a typical 3d transition metal, Cu exhibits competitive potential in the catalytic transfer hydrogenation of nitriles due to its low price and appropriate catalytic activity. Unfortunately, the Cu-based catalyst usually re-quires additional metals to realize good catalytic activity, this makes it difficult to understand the role of Cu. Herein, an amino-modified hollow mesoporous double-shell SiO2 @C (AmHMSiO2 @C) microsphere was applied as a nanoreactor, which achieves the high selective hydrogenation of nitriles over the Cu-only catalyst. The conversion and selectivity to primary amines were 100% and 96% respectively at 60 degrees C using amino borane as the hydrogen source, and the TOF reaches 199.75 h-1 for Cu. The unique structure of the Cu@AmHMSiO2 @C enhances the activity and stability of the Cu active sites. Comparative experiments demonstrate that the synergy between the nanoreactor and Cu nanoparticles enables the desirable catalytic performance toward the hydro-genation of nitriles to primary amines under mild reaction conditions. This work offers a distinct case for con-structing an efficient Cu-based catalyst for heterogeneous hydrogenation reactions.

Key Words:NanoreactorTransition metalsVoid-confinement effectSelective hydrogenationNitrileHollow mesoporous nanospheres

Document Code:WOS:000899557600003

Discipline:Natural Science

First-Level Discipline:Chemistry

Page Number:109143

ISSN No.:2213-3437

Translation or Not:no