Recent material development and applications of conjugated polyelectrolytes by leveraging electronic and ionic transport properties

RSC Applied Polymers Pub Date : 2025-03-14 DOI:10.1039/D5LP00012B

Chibin Zhang, Liang Yao, Mingrui Pu and Cheng Zhou

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Abstract

Conjugated polyelectrolytes (CPEs) are a distinct class of organic materials featuring a π-conjugated backbone and ionic functional groups, enabling simultaneous electronic and ionic transport. This dual conductivity, governed by molecular design, makes CPEs highly versatile for a wide range of applications. The interplay between backbone conjugation and side-chain polarity allows fine-tuning of charge transport, significantly influencing their performance in electronic and energy storage devices. This review highlights recent advances in CPE material design, focusing on backbone evolution and side-chain engineering. We further explore key applications of CPEs, including organic photovoltaics, organic electrochemical transistors, and lithium-ion batteries, emphasizing the structural requirements for each field. Their current challenges and future opportunities are discussed, underscoring the critical role played by CPEs in next-generation optoelectronic and energy technologies.

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利用电子和离子输运性质的共轭聚电解质的最新材料发展和应用

共轭聚电解质（cpe）是一类独特的有机材料，具有π共轭主链和离子官能团，可以同时进行电子和离子传输。这种由分子设计控制的双导电性使cpe具有广泛的用途。主链共轭和侧链极性之间的相互作用允许电荷传输的微调，显着影响它们在电子和能量存储设备中的性能。本文综述了CPE材料设计的最新进展，重点介绍了主链演变和侧链工程。我们进一步探讨了cpe的关键应用，包括有机光伏、有机电化学晶体管和锂离子电池，并强调了每个领域的结构要求。讨论了它们目前面临的挑战和未来的机遇，强调了cpe在下一代光电和能源技术中发挥的关键作用。

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RSC Applied Polymers

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