A flexible polypyrrole/GelMA self-supported electrode for supercapacitors by confined interfacial electrodeposition
Gang Wang, Xuezheng Chen, Jiafan Guo, Xiaomin Su, Weijie Li, Junyi Huang, Wenxi Wu, Ting Tian, Feng Yu

TL;DR
A new flexible and durable polypyrrole-based electrode for supercapacitors is developed using a novel interfacial electropolymerization method.
Contribution
A self-supported polypyrrole/GelMA composite film electrode is created without binders or conductive agents, enhancing capacitance and stability.
Findings
The PPy/GEL electrode achieves a high areal capacitance of 260 mF cm−2 at 1 mA cm−2.
It retains 98% of its capacitance after 30,000 cycles and 100 folding cycles.
The method uses spatial confinement to grow PPy into a continuous, flexible film.
Abstract
The traditional polypyrrole (PPy) electrode for supercapacitors usually consists of PPy nanoparticles, carbon black and a binder. The PPy electrode inevitably suffers from structural rupture and active PPy particles' detachment during repeated doping/de-doping processes and results in low practical capacitance. Exploring the self-supported electrode without adding any binder or conductive agent is a smart and promising method to avoid the above problems. Herein, a flexible and tailorable polypyrrole/GelMA (PPy/GEL) composite film electrode was prepared via a novel confined interfacial electropolymerization at the interface of GelMA gel film and a conductive glass substrate (FTO). This method leverages spatial confinement to guide PPy growth into a continuous film, as confirmed by cross-sectional SEM analysis. This method can well confine the growth direction of the PPy chain so that PPy…
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Taxonomy
TopicsSupercapacitor Materials and Fabrication · Conducting polymers and applications · Microbial Fuel Cells and Bioremediation
