Oxidative Dehydrogenative Couplings of Alkenyl Phenols

Overview

Journal Org Biomol Chem

Publisher Royal Society of Chemistry

Specialties Biochemistry
Chemistry

Date 2021 Sep 15

PMID 34522924

Citations 2

Authors

William C Neuhaus

Adriana L Jemison

Marisa C Kozlowski

Affiliations

Soon will be listed here.

Abstract

Alkenyl phenols are utilized by nature in the construction of one of the most important biopolymers, lignin. Using similar building blocks, an array of distinct structures can be formed by selective dimerization of the starting phenols to form lignans, neolignans, oxyneolignans, and norlignans. Given the multitude of possible outcomes, many methods have been reported to affect the desired bond formations and access these biologically relevant scaffolds. The most biomimetic of these methods, discussed here, involve the unprotected phenols undergoing oxidative bond formation that proceeds dehydrogenative coupling. This review aims to place the known literature in context, highlight the progress made toward the synthesis of these important molecules, and recognize the gaps and limitations that still exist.

Citing Articles

Recent advances in oxidative phenol coupling for the total synthesis of natural products.

Carson M, Kozlowski M Nat Prod Rep. 2023; 41(2):208-227.

PMID: 37294301 PMC: 10709532. DOI: 10.1039/d3np00009e.

Catalytic Oxidative Coupling of Phenols and Related Compounds.

Wu J, Kozlowski M ACS Catal. 2022; 12(11):6532-6549.

PMID: 35928569 PMC: 9345132. DOI: 10.1021/acscatal.2c00318.

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