Bioinspired hydrogels have promising prospects in applications such as wearable devices,
human health monitoring equipment, and soft robots due to their multifunctional sensing …

Biomimetic skin-like electric materials have been rapidly developed for human–machine
interfaces, health monitoring, and soft robots. However, achieving a combination of …

The ever‐growing overlap between stretchable electronic devices and wearable healthcare
applications is igniting the discovery of novel biocompatible and skin‐like materials for …

In the past two decades, artificial skin‐like materials have received increasing research
interests for their broad applications in artificial intelligence, wearable devices, and soft …

Flexible materials with ionic conductivity and stretchability are indispensable in emerging
fields of flexible electronic devices as sensing and protecting layers. However, designing …

Conductive hydrogels featuring a modulus similar to the skin have flourished in health
monitoring and human-machine interface systems. However, developing conductive …

Hydrogel-based electronics have attracted substantial attention in the field of biological
engineering, energy storage devices, and soft actuators due to their resemblance to living …

The construction of a surface-wrinkled ionic conductive hydrogel with highly stretchable and
healable properties for a skin-inspired pressure sensor is desirable yet challenging. Here, a …

Hydrogel-based strain sensors inspired by nature have attracted tremendous attention for
their promising applications in advanced wearable electronics. Nevertheless, achieving a …

As a promising functional material, hydrogels have attracted extensive attention, especially
in flexible wearable sensor fields, but it remains a great challenge to facilely integrate …