Microbial bioelectronic sensors use living bacteria that can create an electrical signal in response to the presence of a ...

Living bacteria generate electrical signals in a new hydrogel sensor that can detect substances in liquids like milk.

An international research team led by Konrad Meister from Boise State University’s Department of Chemistry and Biochemistry and the Max Planck Institute for Polymer Research has identified a new class ...

Today we’re taking a look at the Sudokoo Mach 120, a new fan aiming to challenge the Phanteks D30 and Noctua A12x25 G2, two ...

Electric cars are getting better all the time, but the batteries are still the main thing holding them back. We want them to ...

Middle East tensions disrupt global resin markets, creating supply shortages and soaring prices for PE and PP polymers.

A team of researchers have developed an innovative image sensor that integrates liquid biological environments with organic electronics ...

A micrometer-sized liquid crystal droplet doped with fluorescent dye functions as a nanosecond optical switch that controls light output using light alone. The resonant cavity design cuts the energy ...

The perfluorocarbon coatings could reduce infections and blood clots in devices made with materials like PTFE, silicone and polyurethane.

Researchers demonstrate nanosecond optical switching using a dye-doped droplet that redirects stored energy without electrical input.

SHENZHEN, GUANGDONG, CHINA, March 10, 2026 /EINPresswire.com/ -- The rapid evolution of smart home technology has ...