The alternative option of inducing a current in chiral molecules, i.e., molecules that have no superimposable mirror images, such as helix structures, has been discussed over the past decade.

Chiral semiconductors use a few tricks from Mother Nature The same brightness with much less energy usage Big implications ...

Nature has some peculiar ways of creating molecules. Many molecules, such as DNA, proteins, and sugars, have a property called chirality. Basically, chiral molecules are molecules that are shaped such ...

A major breakthrough in organic semiconductors has been achieved, potentially transforming display technology and even future ...

Chirality, a property found in many molecules, plays a crucial role in areas such as chemistry, biology, and pharmacology. However, the measurement of chiral optical signals can be challenging ...

Chiral molecules are molecules that can appear in different configurations that are mirror images of each other – the configurations are referred to as left-handed and right-handed enantiomers. In all ...

Deep within certain magnetic molecules, atoms arrange their spins in a spiral pattern, forming structures called chiral ...

A new study by researchers at the University of Illinois Urbana-Champaign describes a breakthrough in the field of organic ...

In scenarios where two mirror-image molecules are possible, special catalysts are required to produce only the desired one. A ...

A recent review article published in Engineering delves into the latest research on enhancing chiral optical signals, a topic with significant ...

Researchers propose innovative strategies to enhance chiral optical signals, focusing on superchiral fields and advanced ...