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

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

Antimicrobial resistance and ecological disruption caused by broad-spectrum disinfectants have created an urgent need for precision strategies that remove harmful bacteria without damaging beneficial ...

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.

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 ...

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 ...

Eye tumors are difficult to treat because drugs often struggle to reach tumor tissue without damaging healthy structures of ...

As global energy demands continue to rise, developing improved energy storage solutions has become a pressing challenge. Nanomaterials have shown great promise for enhancing the performance of ...

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.

Graphene is often described as a wonder material. It is strong, electrically conductive, thermally efficient, and remarkably versatile. Yet despite more than a decade of excitement, many ...

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 ...