Circularly polarized light has properties that make it useful in a growing range of technologies, from next-generation 3D ...

Tokyo, Japan – Researchers from Tokyo Metropolitan University have created a new superconductor with a chiral crystalline structure by mixing two materials, one with superconductivity but no chirality ...

New molecular design unlocks high photoluminescence efficiency and improved stability, with potential applications in lasers, ...

A Hong Kong University of Science and Technology (HKUST) research team has developed a catalytic enantioselective type II [5 + 2] cycloaddition method to address the challenges of synthesizing chiral ...

Like carbon and silicon, germanium’s lighter brethren on the periodic table, the metalloid can bond to four different groups, forming a chiral, tetrahedral molecule. Researchers at Nankai University ...

The resulting material retains the handedness that makes chiral semiconductors promising building blocks for next-generation ...

Chemists from the National University of Singapore (NUS) have conceived a strategy using chiral nickel catalysts to facilitate the carboboration of alkenes, generating high-value enantioenriched ...

Circularly polarized light has properties that make it useful in a growing range of technologies, from next-generation 3D displays to ...

A dopant molecule accepts electrons from a chiral perovskite host, enabling visible light absorption while preserving the material's left or right-handedness.

Chiral phosphorus compounds represent a critical class of molecules characterised by stereogenic phosphorus atoms or C–P axes, whose unique three-dimensional architectures have transformative ...

Metals like rhodium and palladium are C–H activation aces, but these metals are rare and expensive. For several years, chemists led by Lutz Ackermann at the Georg August University Göttingen have been ...