Recent years, a great deal of investigation has been performed on the design and
fabrication of the flexible zinc-ion batteries ascribing to their decent capacity, affordable …

Flexible electrochemical supercapacitors have shown great potential in the next-generation
wearable and implantable energy-storage devices. Conductive polymer hydrogels usually …

Solid matrix-supported liquid metal nanoparticles have been drawing attention as a
nanoadditive in the fabrication of electroconductive flexible and soft materials. The present …

The integration of 2D materials in triboelectric nanogenerators (TENGs) is known to increase
the mechanical‐to‐electrical power conversion efficiency. 2D materials are used in TENGs …

Poly (vinyl alcohol)/phytic acid (PVA/PA) hydrogels have been identified as self-healable
electrolytes. In this work, a novel redox active and self-healable PVA/PA/Fe 3+(PPFe) …

Self‐healing ionic conductive hydrogels have shown significant potential in applications like
wearable electronics, soft robotics, and prosthetics because of their high strain sensitivity …

Flexible electronic devices to obtain accurate and efficient information interactions between
humans and machines have gained increasing attention in recent years. A series of soft …

Although electrically conductive hydrogels based on conductive polymers hold promise for
flexible and high-performance supercapacitors, it is still a challenge for such devices to …

Smart hydrogels with high electrical conductivity, which can be a real source of power while
also collecting and storing the diverse sources of energy with ultrahigh stretchability, strong …

Developing all-gel supercapacitors with high capacitance and stretchability remains a
challenge. Herein, high mass of electroactive anthraquinonemonosulfonate (AQS)-doped …