- Molecular adlayer produced by dissolving water-insoluble nanographene in water
- Crystal clear: Understanding magnetism changes caused by crystal lattice expansion
- Shortcut strategy for screening compounds with clinical potentials for drug development
- Black hole ‘donuts’ are actually ‘fountains’
- New study reveals common table salt may have been crucial for the origins of life
- Reproducing paintings that make an impression
- Automated technique for anime colorization using deep learning
- Coordinated development could help wind farms be better neighbors
- Uranium in mine dust could dissolve in human lungs
- In team sports, chemistry matters
- New material, black silver, discovered
- More sensitive MRI diagnostics thanks to innovative ‘elastic’ contrast media
- Study unlocks full potential of ‘supermaterial’ graphene
- New method automatically computes realistic movement with friction from 3D design
- Insight into the brain’s hidden depths: Scientists develop minimally invasive probe
- Living electrodes with bacteria and organic electronics
- Realistic exposure study supports the use of zinc oxide nanoparticle sunscreens
- Retail outlets using telehealth pose significant privacy, policy concerns for health care
- Searching an artificial bee colony for real-world results
- What happens when materials take tiny hits
- A prosthetic arm that decodes phantom limb movements
- AI could help cities detect expensive water leaks
- New device for manipulating and moving tiny objects with light
- Drones offer ability to find, ID and count marine megafauna