A team from the Singapore University of Technology and Design (SUTD), led by Associate Professor Michinao Hashimoto, has come ...

SUTD researchers 3D print biodegradable conductive electronics using direct ink writing and cellulose acetate dissolved in acetone.

Solar energy plays a big role in the fight against climate change. As the world turns to solar power, concerns about the ...

Nanoplastics—particles smaller than a human hair—can pass through cell walls and enter the food web. New research suggest 27 ...

A research team led by Prof. Tian-Bao Ma from the Department of Mechanical Engineering at Tsinghua University has proposed a ...

This article is sponsored by Atalys. In this Voices interview, Medical Design & Outsourcing spoke with Dr. David Crispino, ...

Electrically, it is one of the most conductive materials known, making it perfect for flexible electronics and smart textiles. It also has outstanding thermal conductivity and mechanical flexibility.

However, beneath these familiar solutions lies a wealth of lesser-known materials, niche applications, and innovative approaches that promise to redefine the landscape of conductive plastics.

Argonne and UChicago researchers use AI-driven, autonomous laboratory to accelerate advances in electronic polymers and materials discovery.

On March 11th, the webinar Enhancing Electrical Conductivity in Plastics: Materials, Methods, and Applications will take place. Attendees will explore the world of conductive plastic materials, ...