Soft robotics is an emerging technology requiring conductive materials with inherently high
compliance to sense, control or actuate. Poly (3, 4-ethylenedioxythiophene): polystyrene …

Abstract Two-dimensional (2D) transition metal carbide/nitride (MXene) has been a hot topic
of research since it was proposed in 2011. Etching methods to obtain MXene from MAX …

Electroconductive hydrogels are very attractive candidates for accelerated spinal cord injury
(SCI) repair because they match the electrical and mechanical properties of neural tissue …

Conductive hydrogels (CHs) combine the biomimetic properties of hydrogels with the
physiological and electrochemical properties of conductive materials, and have attracted …

Biocompatible conductors are important components for soft and stretchable bioelectronics
for digital healthcare, which have attracted extensive research efforts. Natural biopolymers …

Highly conductive hydrogels with biotissue‐like mechanical properties are of great interest
in the emerging field of hydrogel bioelectronics due to their good biocompatibility …

Abstract 3D bioprinting involves the combination of 3D printing technologies with cells,
growth factors and biomaterials, and has been considered as one of the most advanced …

Microgel assembly, a macroscopic aggregate formed by bottom-up assembly of microgels, is
now emerging as prospective biomaterials for applications in tissue engineering and …

Abstract Three-dimensional (3D) bioprinting enables a controlled deposition of cells,
biomaterials, and biological compounds (ie, bioinks) to build complex 3D biological models …

In tissue engineering, an unresolved challenge is how to build complex 3D scaffolds in order
to recreate the structure and function of human tissues and organs. Additive manufacturing …