Solid-state physicists and materials chemists are now in excellent “shape” to expand and accelerate their explorations of the science of topological materials for a wide range of possible applications.

Solid-state physicists and materials chemists are now in excellent “shape” to expand and accelerate their explorations of the science of topological materials for a wide range of possible applications.
With a mastery of material phases, over the years scientists have developed more sustainable and groundbreaking technological advancements.
A rechargeable aluminum-nitrogen battery serves the dual purpose of not only storing and retrieving energy, but also being able to fix its nitrogen stream as ammonia.
To celebrate his upcoming 77th birthday, we reached out to nanochemist and long-time ASN contributor, Geoffery Ozin, to discuss his colorful career, current projects, and plans for the future.
New observations suggest that the unexpected dimming of the supergiant star was most likely caused by a dust cloud that blocked starlight coming from the star’s surface.
Inspired by nature, researchers create a new kind of photoelectric generator based on a bacterial ion pump.
Researchers design a photo-electrochemical reactor to produce affordable “green” hydrogen.
Hydrogen is a promising sustainable energy source, and exciting steps are being made towards realizing a hydrogen-powered, zero emissions infrastructure.
There is a tremendous sense of joy and elation when a chemist discovers a new molecule, but if we dehumanize the art of science what is left?
Taking a look at the past, present, and future of combinatorial chemistry in materials research.