Chirality—often described as "handedness"—is a fundamental property of nature, underlying the behavior of molecules ranging from DNA to pharmaceuticals. While chemists have long known how to separate ...

Chemists can make a career out of controlling whether certain molecules are generated as a lefty or a righty. Molecules don't literally have hands, but scientists often refer to them in this way when ...

Chirality is a fundamental property of asymmetry in nature, where an object or molecule cannot be superimposed onto its mirror image. In the context of nanotechnology, chirality refers to the ...

You wouldn’t think molecules could be left- or right-handed – they’re too tiny to have limbs, after all. However, they absolutely can be, and it’s all to do with a property called chirality. The rest ...

Researchers have achieved a significant breakthrough in the synthesis of carbon nanotubes, also known as the 'king of nanomaterials.' Researchers have achieved a significant breakthrough in the ...

What sets CNTs apart is the concept of chirality. The production of CNTs can follow either a chirality-controlled or a non-chirality-controlled process, such as armchair, zigzag, or chiral. For ...

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 ...

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 ...

The thumb and first two fingers on Tsvelik's hands show the relative orientations of three nearby electrons whose magnetic moments point at right angles to one another--like the x, y, z axes on a 3-D ...

Structural chirality refers to the geometric property of objects that are not superimposable on their mirror images, a concept that is central to organic chemistry. In contrast, topological chirality ...