Camera uses off-the-shelf components and is fast enough to capture highly dynamic biomedical processes at 4.8 million frames per second or to enable high-speed lidar.
Scientists have achieved a groundbreaking advancement in nanomaterials by successfully developing a highly efficient electrocatalyst which can enhance the generation of hydrogen significantly through electrochemical water splitting.
Researchers encased a new antibacterial compound known as Narasin in soft nanoparticles 1000 times smaller than a single strand of human hair and applied in a gel form to targeted acne sites.
Researchers designed biomimetic 'stalactite' nanopores that mimic naturally occurring stalactites. The asymmetric pores could enable advancements in biosensing, energy harvesting, and filtration.
Researchers designed and compared nanoparticles that provide information on the plaque development stage in atherosclerosis. This ground-breaking, simple nanoprobe could inspire new designs of non-invasive contrast agents for atherosclerosis and other diseases.
Using special optical fibers, researchers identified a new optical mode that enables uniform illumination along the entire length of the fiber, and determined the resolution limit of individual objects that could be measured with fibers.
