Bioactive Materials (Aug 2023)

Chemically revised conducting polymers with inflammation resistance for intimate bioelectronic electrocoupling

  • Sihao Qian,
  • Hsing-An Lin,
  • Qichao Pan,
  • Shuhua Zhang,
  • Yunhua Zhang,
  • Zhi Geng,
  • Qing Wu,
  • Yong He,
  • Bo Zhu

Journal volume & issue
Vol. 26
pp. 24 – 51

Abstract

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Conducting polymers offer attractive mixed ionic-electronic conductivity, tunable interfacial barrier with metal, tissue matchable softness, and versatile chemical functionalization, making them robust to bridge the gap between brain tissue and electronic circuits. This review focuses on chemically revised conducting polymers, combined with their superior and controllable electrochemical performance, to fabricate long-term bioelectronic implants, addressing chronic immune responses, weak neuron attraction, and long-term electrocommunication instability challenges. Moreover, the promising progress of zwitterionic conducting polymers in bioelectronic implants (≥4 weeks stable implantation) is highlighted, followed by a comment on their current evolution toward selective neural coupling and reimplantable function. Finally, a critical forward look at the future of zwitterionic conducting polymers for in vivo bioelectronic devices is provided.

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