Modern portable and wearable electronic devices increasingly integrate high-performance components and wireless communication technologies. While this integration enhances functionality, it also ...

Researchers have developed a new and highly efficient way to characterize the structure of polymers at the nanoscale -- effectively designing a routine analytical tool that could be used by industries ...

Chemists grew the longest conductive polymer chains ever made on a surface, nearly one micrometer long, using a clean process that enables precise nanoribbons.

Researchers have developed a simple method that converts existing generic polymers into luminescent polymers using mechanical force. Hokkaido University researchers have developed a simple method that ...

Precise synthesis of polymer brushes to modify the surface of nanoparticles and nanodevices for targeted applications has been one of the major focuses in the community for decades. Here we report a ...

A new method allows chemists to precisely place single monomers at any position within a polymer chain made of other types of monomers. With this single monomer, chemists can add various types of ...

A powerful one-step, "chain growth" method should make it easier to design and synthesize a variety of highly conductive polymers for different research and commercial applications, according to a ...

Recipes for three-dimensional (3-D) printing, or additive manufacturing, of parts have required as much guesswork as science. Until now. Resins and other materials that react under light to form ...

The synthesis of 2D material polymers represents a groundbreaking approach in materials science, offering a diverse range of applications in various industries. These composite materials combine the ...

ANAHEIM, Calif.--A powerful one-step, "chain growth" method should make it easier to design and synthesize a variety of highly conductive polymers for different research and commercial applications, ...

Hokkaido University researchers have developed a simple method that converts existing generic polymers into luminescent polymers using mechanical force. Researchers from Hokkaido University have ...