Researchers at the Indian Institute of Science have created adaptable molecular devices that can function as memory units, ...

For more than 50 years, scientists have sought alternatives to silicon for building molecular electronics. The vision was ...

Properties that remain unchanged when materials are stretched or bent, which are broadly referred to as topological ...

Ultracold atoms have successfully mimicked a fundamental quantum effect normally found in electronic circuits.

Researchers have identified a new magnetic state that blends stability with electrical readout, a key challenge in future ...

Decades of research has viewed DNA as a sequence-based instruction manual; yet every cell in the body shares the same genes – so where is the language that writes the memory of cell identities?

New works presents a unified theoretical framework to describe particles and waves in non-Hermitian systems, potentially leading to major advancements in condensed matter physics Topological structure ...

Knowledge of the electronic structure of amorphous and liquid silica at high pressures is essential to understanding their complex properties ranging from silica melt in magma to silica glass in ...

A multi-institutional research team has clarified the energy levels of color centers at the SiO2/SiC interface, paving the way toward the development of scalable quantum technologies that use them as ...

Osaka, Japan – Many next-generation quantum devices rely on single-photon emitters based on optically active defects in solids, known as color centers. Understanding their properties is fundamental to ...

For the first time, researchers have reported a 3D metal-organic framework (MOF) that can conduct both electrons and protons (J. Am. Chem. Soc. 2024, DOI: 10.1021/jacs.4c13792). Materials mixing ...