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 ...

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 ...

Researchers have achieved a significant breakthrough in the synthesis of carbon nanotubes (CNTs) by developing a novel catalyst that allows for precise control over their atomic arrangement, known as ...

These results help fill in a critical link in the chain from molecules to organs and bodies, the researchers say. "Our findings provide new insights into how molecular chirality gives rise to cellular ...

A team of chemists has made significant strides in the field of mechanically interlocked molecules (MIMs). Their work showcases the development of a compact catenane with tuneable mechanical chirality ...

A printable organic polymer that assembles into chiral structures when printed has enabled researchers to reliably measure the amount of charge produced in spin-to-charge conversion within a ...

Molecular chirality is a fundamental feature of living systems and asymmetric chemistry, yet its origin remains unresolved ...

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 ...

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 ...