# To Transfer or Not to Transfer an Electron: Anionic Metal Centers Reveal Dual Functionality for Polymerization Reactions

**Authors:** Andrei Evdokimov, Evangelos Miliordos

PMC · DOI: 10.3390/molecules30071570 · 2025-03-31

## TL;DR

This paper explores how anionic cobalt centers can act in two different ways during polymerization reactions, depending on the reaction conditions.

## Contribution

The study reveals dual functionality of anionic metal centers in polymerization through two distinct reaction mechanisms.

## Key findings

- Co(CO)4− can act as a nucleophile or initiate radical polymerization via single electron transfer.
- The activation barriers for the two reaction paths are similar, making the mechanism choice sensitive to conditions.
- Solvent effects are suggested to significantly influence the reaction outcome.

## Abstract

Catalysts with anionic metal centers have recently been proposed to enhance the performance of various chemical processes. Here, we focus on the reactivity of Co(CO)4− for the polymerization of aziridine and carbon monoxide to form polypeptoids, motivated by earlier experimental studies. We used multi-reference and density functional theory methods to investigate possible reaction mechanisms and provide insights into the role of the negatively charged cobalt center. Two different reaction paths were identified. In the first path, Co− acts as a nucleophile, donating an electron pair to the reaction substrate, while in the second path, it performs a single electron transfer to the substrate, initiating radical polymerization. The difference in the activation barriers for the two key steps is small and falls within the accuracy of our calculations. As suggested in the literature, solvent effects can play a primary role in determining the outcomes of such reactions. Future investigations will involve different metals or ligands and will investigate the effects of these two reaction paths on other chemical transformations.

## Linked entities

- **Chemicals:** aziridine (PubChem CID 9033), carbon monoxide (PubChem CID 281), Co(CO)4− (PubChem CID 521826)

## Full-text entities

- **Chemicals:** Co(CO)4- (-), carbon monoxide (MESH:D002248), aziridine (MESH:C033132), Metal (MESH:D008670), cobalt (MESH:D003035)

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11990126/full.md

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Source: https://tomesphere.com/paper/PMC11990126