Researchers have published a new theory for making batches of carbon nanotubes with a single, desired chirality. Their method could simplify purification of nanotubes that are all metallic or all semiconductors.
Nov 9, 2022
Researchers at the University of Chicago's Pritzker School of Molecular Engineering (PME) have discovered a new material, MnBi6Te10, which can be used to create quantum highways along which electrons can move. These electron thoroughfares are...
Nov 9, 2022
These electron thoroughfares are potentially useful in connecting the internal components of powerful, energy-efficient quantum computers.
Nov 9, 2022
Early diagnosis of chronic kidney disease (CKD) is key to managing progression of the disease. A new technique analyzing urine extracellular vesicles (uEVs) -- cell-derived nanoscale spherical structures involved in multiple biological functions -...
Nov 9, 2022
Researchers show how tight 'diet' could produce single-chirality carbon nanotubes.
Nov 9, 2022
Like a giraffe stretching for leaves on a tall tree, making carbon nanotubes reach for food as they grow may lead to a long-sought breakthrough.
Nov 9, 2022
IBM's new quantum computer, Osprey, is more than triple the size of its previous record-breaking Eagle processor
Nov 9, 2022
IBM's new quantum computer, Osprey, is more than triple the size of its previous record-breaking Eagle processor
Nov 9, 2022
IBM's new quantum computer, Osprey, is more than triple the size of its previous record-breaking Eagle processor
Nov 9, 2022
In 2021, IBM unveiled Eagle, the first quantum processor with more than 100 qubits. Now the company has debuted Osprey, which possesses more than three times as many qubits. The advances IBM made to triple the number of qubits on a chip in just on...
Nov 9, 2022
