Primary Amines from Lignocellulose by Direct Amination of Alcohol Intermediates, Catalyzed by RANEY® Ni

Overview

Journal Catal Sci Technol

Publisher Royal Society of Chemistry

Date 2022 Nov 3

PMID 36324826

Authors

Xianyuan Wu

Mario De Bruyn

Katalin Barta

Affiliations

Soon will be listed here.

Abstract

Primary amines are crucially important building blocks for the synthesis of a wide range of industrially relevant products. Our comprehensive catalytic strategy presented here allows diverse primary amines from lignocellulosic biomass to be sourced in a straightforward manner and with minimal purification effort. The core of the methodology is the efficient RANEY® Ni-catalyzed hydrogen-borrowing amination (with ammonia) of the alcohol intermediates, namely alkyl-phenol derivatives as well as aliphatic alcohols, obtained through the two-stage process Hereby the entails the copper-doped porous metal oxide (Cu20PMO) catalyzed reductive catalytic fractionation () of pine lignocellulose into a crude bio-oil, rich in dihydroconiferyl alcohol (), which could be converted into dihydroconiferyl amine () in high selectivity using ammonia gas, by applying our selective amination protocol. Notably also, the crude -oil directly afforded in a high 4.6 wt% isolated yield (based on lignin content). Finally it was also shown that the here developed Ni-catalysed heterogeneous catalytic procedure was equally capable of transforming a range of aliphatic linear/cyclic primary/secondary alcohols - available from the of the procedure - into their respective primary amines.

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