News & Meida

Triboelectric nanogenerators (TENG) are widely adopted as self-powered strain sensors in wearable applications. However, the reported designs are limited to ...

The demand for flexible energy storage solutions in wearable electronics has spurred the exploration of innovative electrode architectures tailored for micro...

While skin-based electrochemical sensors patch for sweat analytes monitoring offers encouraging non-invasive biomarker monitoring, enzymatic biosensors pose ...

Generating significant energy from inconsistent breeze winds poses a major challenge for wind-driven energy harvesters. To address this, a fidget spinner-ins...

The demand for non-invasive health monitoring with wearables poses challenges in developing sustainable, self-powered systems, as current energy harvesters f...

The development of stretchable strain sensors incorporating electrodes enhanced with nanomaterials holds promise for revolutionizing wearable healthcare syst...

A wearable biosensing patch for the monitoring of physiochemical parameters related to chronic wounds presents a promising approach to personalized wound man...

In this study, a breathable and strain-insensitive multi-layered electronic skin (e-skin) capable of real-time detection and distinction of electrocardiogram...

Although metal-organic framework (MOF)-derived nanoporous C (NPC) materials offer several advantages for electrochemical sensor applications, surface functio...

Since triboelectric nanogenerators (TENG) are receiving attention as a promising technology in the domain of self-powered sensors for human activity monitori...