Scientists have successfully developed an algorithm to precisely and efficiently predict the potential energy state of individual molecules using quantum mechanical data.
In a proof-of-concept study, researchers made fish-shaped microrobots that are guided with magnets to cancer cells, where a pH change triggers them to open their mouths and release their chemotherapy cargo.
Researchers have developed an interface approach to control the diamond nitrogen-vacancy centers in a way that allows direct translation to quantum devices.
Inspired by the 'Game of Life', researchers are applying cellular automation to efficiently model phase change materials with multiple optical phases for next-generation photonics devices.
A research group has shown that fast switching down to 3.5 ns in sub-five-nm ultra-small magnetic tunnel junctions can be achieved by engineering relaxation time. The new technology is expected to lead to the replacement of high-speed DRAM with spintronic non-volatile memory.
