5. Thermally Conductive Composites These composites consist of polymer matrices embedded with thermally conductive fillers like graphite, boron nitride, or alumina. Applications: Lightweight ...

Developed by sportswear company Asics, the outfit worn by Australia's Alex de Minaur demonstrates an example of thermal ...

In today’s rapidly advancing technological landscape, electronic materials are the foundation of countless devices and systems that power our daily lives. From smartphones and laptops to advanced ...

In the HyCoFC research project, industry and research partners are working together to develop bipolar plates for durable, cost-effective and high-performance fuel cells, specifically for heavy-duty ...

Controlling indoor humidity is a significant challenge in construction and building maintenance. High humidity fosters mold, ...

With a focus on graphene, the GEIC advances energy storage solutions, improving battery efficiency and sustainability for various industrial applications.

The integration of nanomaterials in aerospace thermal management improves thermal insulation and barrier coatings, ensuring ...

Conductive polymers (CPs) are conjugated organic structures with alternating double and single bonds and delocalized π electrons. They have unique electrochemical and optical properties and have wide ...

The New York State Energy Research and Development Authority (NYSERDA) today (Jan 23) announced more than $1.2 million has been awarded to four innovative clean hydrogen research and develop. . .

The material offers a thermal resistance of 10-15 x 10-6 K•m2/W and a thermal conductivity of 2.3-2.6 W/(m•K). This epoxy exhibits dimensional stability with low shrinkage upon curing and a low ...

This groundbreaking fabric from Waterloo researchers offers solar-powered warmth, integrating advanced nanoparticles for ...