Abstract Electronic skins (E‐skins), which are intelligent extensions of the human skin, are in
great demand because of the rapid development of information technology and intelligence …

Self-healing materials (SHEM) have extensive characteristics that significantly influence
structural and polymeric components' damage detection and healing behaviour. The …

Inherently tissue‐like feature and multifunctional property of hydrogels make themself
excellent materials for flexible electronics. However, conventional hydrogels with insufficient …

MXenes are a class of two-dimensional (2D) materials that have gained significant attention
in the field of electronic skins (E-skins). MXene-based composites offer several advantages …

Electronic devices with multiple features bring comfort to the way we live. However, repeated
use causes physical as well as chemical degradation reducing their lifetime. Inspired by …

Silk fibroin (SF) is an excellent protein-based biomaterial produced by the degumming and
purification of silk from cocoons of the Bombyx mori through alkali or enzymatic treatments …

Chronic wounds are known as one of the biggest health challenges, especially in the case
of diabetes patients, which annually engages millions of patients, and its management …

Since the cracks or scratches that occur during use can degrade the performances and
lifetime of organic film electronic devices, the development of self-healing materials holds …

Tissue engineering focuses on the development of materials as biosubstitutes that can be
used to regenerate, repair, or replace damaged tissues. Alongside this, 3D printing has …

A piezoresistive flexible strain sensor was developed using thermoplastic polyurethane
elastomers (TPU) as the matrix and carbon nanotubes (CNTs) as conductive fillers …