Researchers uncover geometric principles governing how particles self-assemble, solving a long-standing challenge in ...

Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The ...

Enzymatic biofuel cells (EBFCs), which generate electricity through electrochemical reactions between metabolites and O2/air, ...

Nanomaterials are everywhere—from cosmetics to electronics—but their environmental and health risks are only beginning to be ...

Nanomaterials are showing up everywhere from batteries to medical treatments. This listicle takes a closer look at six breakthroughs that are pushing the boundaries of what nanotech can do.

Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The challenge: the process seemed random and notoriously difficult to predict.

Nanomaterials are, as defined by Standford University's Environmental Health & Safety Department as "materials with a minimum of one external dimension that ranges in size between 1-100 nanometers [2.

These nanomaterials are composed mostly of carbon, most commonly taking the form of a hollow spheres, ellipsoids, or tubes. Spherical and ellipsoidal carbon nanomaterials are referred to as fullerenes ...

A pioneering liquid metal combination is shaping up as a potential secret weapon in the global fight against antimicrobial resistance, and promises to outlast existing implant materials. While also ...

In recent years, two-dimensional (2D) single-crystalline metal nanosheets have emerged as a promising next-generation platform for self-powered electronics. However, their potential for triboelectric ...

A new technical paper titled “Deep-learning atomistic semi-empirical pseudopotential model for nanomaterials” was published ...

Multifunctional carbon-based nanomaterials offer routes towards the realization of smart and high-performing (opto)electronic (nano)devices, sensors and logic gates. Meanwhile photochromic molecules ...