Physicists found a new way to control correlated states in twisted double bilayer tungsten diselenide, paving the way for ...

The study provides a first experimental look at the principle of microscopic reversibility in molecular devices.

Carbon nanotubes can emit light that has a greater energy than light shone on them - now researchers think they understand ...

Two waves are coherent when there is a meaningful relationship between their phases or when their interference creates a well ...

Alexandra Rutz and Somtochukwu Okafor have developed a technique to 3D print bioelectronic scaffolds that could help grow new ...

Scientists have taken a critical next step in creating a scalable process to remove carbon dioxide (CO2) from the air and ...

Researchers have turned abundant natural materials like cellulose into powerful hydrogels that capture water from air, offering a scalable solution to global water scarcity.

The measurement breaks the 'nanometer barrier', allowing researchers to observe ultrafast collective electronic motion on a ...

The study introduces an innovative electronic fine-tuning (EFT) approach to enhance the interactions between zinc (Zn) and ...

Innovations in quantum sensing and computing could follow the discovery of how chromium sulfide bromide responds to magnetic ...

Like graphene, MAC is also a 2D or single atom-thick material. But unlike graphene where atoms are arranged in an ordered ⎯ ...

By combining organic and inorganic chemistry, scientists developed the innovative lubricant with remarkable capabilities.