posted on 2025-01-11, 03:29authored byJunjie Ma, Zhihui Wang, Ben Niu, Wei Wang, Hui Wang
Electroresponsive
multicolored materials have tremendous potential
in flexible electronics and smart wearable devices. Herein, the electrochromic
dynamics and in situ morphological evolution of a
single soft polyaniline nanoentity can be visualized and decoupled
by an opto-electrochemical imaging strategy. The durability, tinting
speed, and reversibility down to the single-nanoparticle level are
quantified, and the switching of transient intermediate electrochromic
states is trapped. The mechanistic studies suggest that the heterogeneity
of electrochromic activity is attributed to the nonuniformity of the
polymer network interspersed at the nanometric level. Furthermore,
the representative Pauli repulsion effect is uncovered from the self-stretching
behavior of the conductive state of polyaniline at the oxidized potential.
It provides novel insights for advancing high-performance electrochromic
devices and flexible strain sensors, which can be dynamically manipulated
by external stimuli.