Bioelectronic implantable devices are adept at facilitating continuous monitoring of health
and enabling the early detection of diseases, offering insights into the physiological …

The loss of urinary bladder control/sensation, also known as urinary incontinence (UI), is a
common clinical problem in autistic children, diabetics, and the elderly. UI not only causes …

With the development of wearable sensing technology, increasing attention has been given
to flexible wearable sensors with textile structures. With a change in the coil structure …

We are introducing a wireless and passive strain sensing scheme that utilizes ultrasound
imaging of a highly stretchable hydrogel embedded with zinc oxide (ZnO) nanoparticles …

In this work, we propose a novel method for the preparation of polypyrrole (PPy) layers on
textile fabrics using a reactive inkjet printing technique with direct freezing of inks under …

Sensing mechanical tissue deformation in vivo can provide detailed information on organ
functionality and tissue states. To bridge the huge mechanical mismatch between …

Electrically conductive woven, knitted, and nonwoven composite fabrics are prepared by in
situ chemical polymerization of pyrrole using suitable oxidant and dopant. These composite …

An elastomeric hydrogel membrane containing dissolved salt is demonstrated to be a linear
strain sensor for large strains up to 25%. AC sensing circuitry allows the ionic conductor to …

The bladder, stomach, intestines, heart, and lungs all move dynamically to achieve their
purpose. A long‐term implantable device that can attach onto an organ, sense its movement …

A soft, conformable, biocompatible strain sensor based on ultra-thin stretchable electronics
is reported. The sensor comprises gold thin films patterned on a 50 μm thick polyurethane …