Sensors are considered to be an important vector for sustainable development. The demand
to meet the needs of future generations is accelerating the development of intelligent sensor …

Conductive hydrogels can be prepared by incorporating various conductive materials into
polymeric network hydrogels. In recent years, conductive hydrogels have been developed …

Ionic conductive hydrogels (ICHs) integrate the conductive performance and soft nature of
tissue‐like materials to imitate the features of human skin with mechanical and sensory …

Efforts to design devices emulating complex cognitive abilities and response processes of
biological systems have long been a coveted goal. Recent advancements in flexible …

Sensors are becoming increasingly significant in our daily life because of the rapid
development in electronic and information technologies, including Internet of Things …

The rapid growth of the electronics industry and proliferation of electronic materials and
telecommunications technologies has led to the release of a massive amount of untreated …

Very recently, MXene‐based wearable hydrogels have emerged as promising candidates
for epidermal sensors due to their tissue‐like softness and unique electrical and mechanical …

Conductive hydrogels have recently attracted extensive attention in the field of smart
wearable electronics. Despite the current versatility of conductive hydrogels, the balance …

Hydrogels have recently garnered tremendous interest due to their potential application in
soft electronics, human–machine interfaces, sensors, actuators, and flexible energy storage …

Various fields of study consider MXene a revolutionary 2D material. Particularly in the field of
sensors, the metal‐like high electrical conductivity and large surface area of MXenes are …