Implanting living cells as long-term drug producers could transform treatment for numerous diseases, but it is difficult to house the tiny workers in quantities high enough to ensure dosage needs are ...

By generating oxygen inside the implant, scientists significantly improved cell survival and sustained multi-drug delivery over 30 days.

A multi-institutional team of scientists, co-led by Northwestern University, has taken a crucial step toward implantable "living pharmacies" — tiny ...

A multi-institutional team of scientists, co-led by Northwestern University, has taken a crucial step toward implantable ...

Recently, a research team led by Prof. Wang Hongzhi from the Hefei Institutes of Physical Science, Chinese Academy of ...

Neuromodulation is entering a new era, moving beyond broad, high-power stimulation toward targeted, adaptive, and energy-efficient approaches. While ...

Developing robust water-repellent textiles is critical for outdoor, protective, and industrial applications. However, ...

The rapid proliferation of robots and electronic devices is placing the world under a new and growing environmental burden.

Abstract Cancer progression involves cell adhesion molecules (CAMs), which facilitate the recruitment of leukocytes and metastatic tumor cells to ...

Researchers have created “Smart Underwear,” a wearable device that measures flatulence by detecting hydrogen produced by gut ...

Announcing a new article publication for BIO Integration journal. Soft and sustainable wearable bioelectronics are emerging as key platforms for personal health monitoring and digital healthcare.

INCHEON, South Korea,, Feb. 6, 2026 /PRNewswire/ -- Ultra-thin crystalline silicon is an exciting material for next-generation bioelectronics, transforming rigid silicon into flexible nanomembranes ...