Understanding hBN epitaxial growth on Ru(0001) through DFT and microkinetic modeling highlights key mechanisms and the impact ...

Researchers from Fujian Normal University have developed a novel dual salt-based quasi-solid polymer electrolyte for ...

Researchers swap nitrogen and boron into DNA to create analogues that are geometrically and electrostatically equivalent to ...

Back in the old days—the really old days—the task of designing materials was laborious. Investigators, over the course of ...

Scientists have made a significant breakthrough in understanding the growth of "white graphene" on metal substrates. This ...

Identifying alloy properties can be expensive and time-consuming. Experiments involving alloys often require a number of ...

Researchers have recently achieved a significant breakthrough in the development of next-generation carbon-based quantum materials, opening new horizons for advancements in quantum electronics. The ...

A breakthrough in decoding the growth process of Hexagonal Boron Nitride (hBN), a 2D material, and its nanostructures on metal substrates could pave the way for more efficient electronics, cleaner ...

Here, the authors proposed a new hybrid multi configuration density functional theory method that is shown to give satisfactory results for general purpose.

An international team has combined organic synthesis with predictive models to discover new functional materials that enhance ...

Nuclear density functional theory (DFT) is a fully microscopic theoretical framework which has the potential of providing such a quantitatively accurate description of nuclear properties for every ...