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Ruthenium-catalyzed hydrogenation of CO(2)as a route to methyl esters for use as biofuels or fine chemicals

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journal contribution
posted on 2020-11-30, 14:37 authored by Zheng Wang, Ziwei Zhao, Yong Li, Yanxia Zhong, Qiuyue Zhang, Qingbin Liu, Gregory A Solan, Yanping Ma, Wen-Hua Sun
A novel robust diphosphine–ruthenium(II) complex has been developed that can efficiently catalyze both the hydrogenation of CO2 to methanol and its in situ condensation with carboxylic acids to form methyl esters; a TON of up to 3260 is achievable for the CO2 to methanol step. Both aromatic and aliphatic carboxylic acids can be transformed to their corresponding methyl esters with high conversion and selectivity (17 aliphatic and 18 aromatic examples). On the basis of a series of experiments, a mechanism has been proposed to account for the various steps involved in the catalytic pathway. More importantly, this approach provides a promising route for using CO2 as a C1 source for the production of biofuels, fine chemicals and methanol.

History

Citation

Chem. Sci., 2020,11, 6766-6774

Author affiliation

Department of Chemistry

Version

  • VoR (Version of Record)

Published in

Chemical Science

Volume

11

Issue

26

Pagination

6766 - 6774

Publisher

Royal Society of Chemistry

issn

2041-6520

eissn

2041-6539

Acceptance date

2020-06-05

Copyright date

2020

Available date

2020-06-05

Language

English