Comprehensive overview of the evolution of transition metal-based catalysts in microbial electrolysis cells from their inception to the present. Critical design parameters of catalysts evaluated from ...

Two-dimensional (2D) materials, in general, allow the realization of unique quantum phenomena unattainable in the common three-dimensional (3D) world. A prime example is graphene. Transition metal ...

Transition metals have many applications in engineering, electrochemistry and catalysis. To understand their properties, the interplay between atomic localization and delocalization of the outer ...

Researchers have measured how electrons in so-called transition metals get redistributed within a fraction of an optical oscillation cycle. They observed the electrons getting concentrated around the ...

Controlling regioselectivity remains one of the major challenges in hydrocyanation. When an unsymmetrical alkyne undergoes this reaction, it typically yields a mixture of regioisomers. This ...

For centuries, the best chemists in the world struggled every day to create the molecules that your own cells manufacture every second. Then they discovered how one group of atoms let them make stuff ...

Rice University researchers have developed a two-step recycling method that pairs microwave-induced plasma with citric acid ...