# Main-chain Polyimidazolium Polymers by One-pot Synthesis and Application   as Nitrogen-doped Carbon Precursors

**Authors:** Konrad Grygie, Sarah Kirchhecker, Jiang Gong, Markus Antonietti,, Davide Esposito, Jiayin Yuan

arXiv: 1705.04275 · 2017-05-12

## TL;DR

This study introduces a one-pot synthesis method for main-chain imidazolium polymers with high thermal stability, suitable as nitrogen-doped carbon precursors, demonstrating efficient synthesis, anion exchange, and high carbonization yields.

## Contribution

Developed a novel, efficient one-pot synthesis of main-chain imidazolium polymers with high thermal stability and high carbonization yield for use as nitrogen-doped carbon materials.

## Key findings

- High thermal stability of synthesized polymers.
- Successful anion exchange with dicyanamide.
- Carbonization yield up to 66 wt% at 900°C.

## Abstract

This paper reports on the one-pot synthesis of main-chain imidazolium-containing polymers, some of which show unusually high thermal stability. The imidazolium polymers were obtained by modified Debus-Radziszewski reactions for the chain build-up from simple organic compounds, here pyruvaldehyde, formaldehyde, acetic acid, and a variety of diamines. The reactions were performed in aqueous media at ambient conditions, being synthetically elegant, convenient and highly efficient. Finally, a simple anion-metathesis reaction was conducted to replace the acetate anion with dicyanamide, and the thermal properties of the main-chain polyimidazoliums before and after anion exchange were studied in detail, which demonstrated chain cross-linking by the counterion and a coupled unusually high carbonization yield of up to 66 wt% at 900 oC.

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Source: https://tomesphere.com/paper/1705.04275