Capillary forces, arising from the surface tension of liquids, have emerged as a versatile mechanism in the microfabrication of advanced microsystems. By harnessing the thermodynamic drive of liquids ...

Imagine materials that build themselves, responding intelligently to their environment to deliver drugs precisely where needed, scaffold regenerating tissues, or clean up pollutants. These are the ...

Colloidal self-assembly is a process where colloidal particles spontaneously organize into ordered structures under specific conditions. Colloidal self-assembly serves as a foundation for designing ...

A rapid condensation process creates uniform porous oxides with conductive nanomaterials, boosting lithium storage performance while enabling full solvent recovery and sustainable material production.

Molecularly engineered ultrathin films enhance efficiency and stability in perovskite solar cells by aligning energy levels precisely, offering an alternative to conventional electron transport layers ...

A research team from Osaka Metropolitan University have developed a donor-acceptor-donor molecule that can spontaneously self-assemble into nanoscale structures and offer a more stable route to ...

An international research team has developed a perovskite-silicon tandem solar cell based on self-assembled monolayers (SAMs) that improve perovskite growth and optoelectronic properties.

Award-winning research Aurélie Hourlier-Fargette with Marwan Chammouma, first author of the Emerging Leaders paper. The screen image shows one of the foams created as part of their study. (Courtesy: ...