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

The market encompasses intrinsically conducting polymers (ICPs), conductive polymer composites (CPCs), and ionically conducting polymers, serving diverse sectors including electronics, automotive, ...

Pentagon says Guam could be 1st target of Chinese missiles during Taiwan invasion ...

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

A chance discovery led a team of scientists from Rice University, University of Cambridge and Stanford University to ...

Manufacturers of passive components are improving their devices through material and design improvements for size and cost ...

A research team led by Professors Stefan Seelecke and Paul Motzki from Saarland University is using a highly versatile film ...

By using leaf skeletons as templates, researchers harnessed nature's intrinsic hierarchical fractal structures to improve the ...

Researchers at the University of Tsukuba have coated the surface of its exoskeleton with an electrically conductive polymer, ...

A promising material for the fabrication of bioelectronics is PEDOT:PSS, a polymer known for its high electrical conductivity, flexibility and compatibility with biological tissues. Despite its ...

Researchers from Stanford University, the University of Cambridge, and Rice University have discovered a simple heat-based method to stabilize a key bioelectronic material.

This 'one-pot' in-situ method creates a controlled, homogeneous blend, pairing the conductivity of the inorganic solids with the flexibility of the polymers. A new technique from the University of ...