. 2024 Apr 5;384(6691):113-118.

doi: 10.1126/science.adn5619. Epub 2024 Apr 4.

Carbon quaternization of redox active esters and olefins by decarboxylative coupling

Xu-Cheng Gan^#¹, Benxiang Zhang^#¹, Nathan Dao^#¹, Cheng Bi¹, Maithili Pokle¹, Liyan Kan^{1

2}, Michael R Collins³, Chet C Tyrol⁴, Philippe N Bolduc⁵, Michael Nicastri⁵, Yu Kawamata¹, Phil S Baran¹, Ryan Shenvi¹

Affiliations

¹ Department of Chemistry, Scripps Research, La Jolla, CA 92037, USA.
² College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China.
³ Oncology Medicinal Chemistry Department, Pfizer Pharmaceuticals, San Diego, CA 92122, USA.
⁴ Pfizer Medicine Design, Groton, CT 06340, USA.
⁵ Biogen Inc., Cambridge, MA 02142, USA.

^# Contributed equally.

PMID: 38574151
PMCID: PMC11452921
DOI: 10.1126/science.adn5619

Carbon quaternization of redox active esters and olefins by decarboxylative coupling

Xu-Cheng Gan et al. Science. 2024.

. 2024 Apr 5;384(6691):113-118.

doi: 10.1126/science.adn5619. Epub 2024 Apr 4.

Authors

Affiliations

¹ Department of Chemistry, Scripps Research, La Jolla, CA 92037, USA.
² College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China.
³ Oncology Medicinal Chemistry Department, Pfizer Pharmaceuticals, San Diego, CA 92122, USA.
⁴ Pfizer Medicine Design, Groton, CT 06340, USA.
⁵ Biogen Inc., Cambridge, MA 02142, USA.

^# Contributed equally.

PMID: 38574151
PMCID: PMC11452921
DOI: 10.1126/science.adn5619

Abstract

The synthesis of quaternary carbons often requires numerous steps and complex conditions or harsh reagents that act on heavily engineered substrates. This is largely a consequence of conventional polar-bond retrosynthetic disconnections that in turn require multiple functional group interconversions, redox manipulations, and protecting group chemistry. Here, we report a simple catalyst and reductant combination that converts two types of feedstock chemicals, carboxylic acids and olefins, into tetrasubstituted carbons through quaternization of radical intermediates. An iron porphyrin catalyst activates each substrate by electron transfer or hydrogen atom transfer, and then combines the fragments using a bimolecular homolytic substitution (S_H2) reaction. This cross-coupling reduces the synthetic burden to procure numerous quaternary carbon---containing products from simple chemical feedstocks.

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Figures

**Fig. 1.. Carbon quaternization overview and application.**
(A). Nitrogen quaternization compared to methods for carbon quaternization. (B) Overview of method reported here. (C) Simplification imparted by this cross-coupling strategy compared to traditional multi-step synthesis.

**Fig. 2.. Examples of simplified syntheses.**
Lengthy routes to quaternary carbon-containing materials are compressed into short sequences using radical quaternization.

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Carbon quaternization of redox active esters and olefins by decarboxylative coupling

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Carbon quaternization of redox active esters and olefins by decarboxylative coupling

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