In the past several decades, significant progress has been made in controlling molecular chirality, as evidenced by the several Nobel Prizes in chemistry awarded in this area, particularly for ...

In physics and materials science, the term "spin chirality" refers to an asymmetry in the arrangement of spins (i.e., the ...

The recognition of chirality in bioactive molecules is as old as modern organic chemistry itself. Pioneering work by Jean-Baptiste Biot, Louis Pasteur, Emil Fischer, and J. vant Hoff established ...

(Nanowerk Spotlight) Scientists from the College of Chemistry and Molecular Sciences at Wuhan University reported a novel class of chiral materials called bichiral nanoparticles that can easily tune ...

Matter behaves differently at various scales. At the microscopic, the behavior of molecules and their atomic constituents can shift drastically simply because the scale is so small that any change is ...

Chirality is a fundamental property of matter that determines many biological, chemical and physical phenomena. Chiral solids, for example, offer exciting opportunities for catalysis, sensing and ...

Chiral gold nanostars show how molecular asymmetry transfers to high-symmetry nanoparticles, producing structures with distinctive optical behavior and enhanced molecular detection. (Nanowerk ...

Leo Wan’s cultured mouse cells didn’t look right. Or rather, they looked left, Wan noticed, as he peered at them through a microscope around 2009. Huddled in a single layer along a narrow glass slide, ...