Researchers at the University of Tsukuba, Japan, have developed a method for synthesizing polyaniline—a conductive polymer ...

The UMass Amherst-led team is challenging the common belief that perfect fillers are the best choice for creating thermally conductive polymers. In the pursuit of developing next-generation materials ...

A study from UMass Amherst shows that defective fillers in polymers improve heat dissipation by 160 %, offering new insights ...

In the quest to design the next generation of materials for modern devices—ones that are lightweight, flexible and excellent ...

In the quest to design the next generation of materials for modern devices – ones that are lightweight, flexible and ...

In the quest to design the next generation of materials for modern devices -- ones that are lightweight, flexible and excellent at dissipating heat -- a team of researchers made a discovery: ...

New research suggests that plastics made with fillers that contain defects may perform up to 160% better than those with ...

Researchers at University of Tsukuba, Japan, have developed a groundbreaking method for synthesizing polyaniline—a conductive polymer exhibiting golden luster—marking the first successful attempt ...

The UMass Amherst-led team challenges the conventional wisdom that perfect fillers are better for making thermally conductive polymersAMHERST, Mass. — ...

A new method produces PEDOT nanofibers with enhanced electrical conductivity and increased surface area for improved charge ...