Advances in soft robotics, materials science, and stretchable electronics have enabled rapid
progress in soft grippers. Here, a critical overview of soft robotic grippers is presented …

Liquid metal polymer composites are an emerging class of functional materials with
potentially transformative impacts in wearable electronics, soft robotics, and human …

Heat and stress transfer at an interface are crucial for the contact‐based tactile sensing to
measure the temperature, morphology, and modulus. However, fabricating a smart sensing …

It is still a formidable challenge to develop ideal thermal dissipation materials with
simultaneous high thermal conductivity, excellent mechanical softness and toughness, and …

Silicone composites featuring inclusions of liquid metal particles are soft and stretchable
materials with useful electric, dielectric, mechanical, and thermal properties. Until recently …

We propose a semiconductor–insulator–semiconductor (SIS) heterojunction diode
consisting of monolayer (1-L) MoS2, hexagonal boron nitride (h-BN), and epitaxial p-GaN …

The relatively high sheet resistance, low work function and poor compatibility with hole
injection layers (HILs) seriously limit the applications of graphene as transparent conductive …

Ecofriendly cation metal oxide quantum dots (QDs) are one of the promising candidates to
replace for QDs containing expensive indium (In) or hazardous Cd-and Pb-elements. Super …

Thermoregulatory garments composed of liquid‐cooled plastic tubes have users ranging
from astronauts to multiple sclerosis patients and are emerging as a flexible cooling solution …

III-V compound semiconductor-based light emitting devices (LEDs) operating in ultraviolet to
visible wavelength ranges are greatly important for their applications, including displays …