Scientists have developed a new theory to explain heat transfer on advanced surfaces. The theory is critical to the researchers' work to develop innovative surfaces for applications such as harvesting ...

The advancement of nanofabrication and advanced manufacturing techniques in recent years has enabled material scientists to ...

Premier Graphene Inc. (OTC-PINK: BIEI) is focused on advanced materials, industrial technologies, and strategic international partnerships. The Company supports regulated cross-border trade, licensing ...

An international team of engineers has developed an innovative, scalable method for creating topography-patterned aluminum surfaces, enhancing liquid transport properties critical for applications in ...

Griffith University scientists have made significant strides in understanding and controlling liquid interactions on tiny, advanced surfaces, a breakthrough that could impact a wide range of ...

Graphene oxide (GO), a two-dimensional carbon-based nanomaterial with a distinctive layered architecture, has emerged as a transformative platform for addressing critical challenges in energy, ...

While traditional methods like painting and hot-dip galvanization have been widely adopted, the persistent pursuit of innovation has driven the development of advanced surface treatment technologies.

University of Texas at Dallas researchers developed a new theory to explain heat transfer on advanced surfaces. From left are: Dr. Xianming (Simon) Dai, associate professor of mechanical engineering; ...