Researchers have uncovered an ultrafast and highly efficient exciton dissociation process in 2D perovskites, overturning…
Browsing: Nanotechnology
Nanotechnology is the science and engineering of manipulating matter at the nanoscale—typically between 1 and 100 nanometers—where the unique properties of atoms and molecules can be harnessed for innovative applications. It bridges physics, chemistry, biology, and materials science to design new structures, devices, and systems with extraordinary strength, conductivity, or reactivity. From targeted drug delivery and cancer treatments to quantum computing, advanced electronics, and renewable energy technologies, nanotechnology is transforming medicine, industry, and environmental science. By controlling matter at the smallest scale, researchers are unlocking powerful tools to shape the future of technology and human health.
Physicists from Exeter and Zaragoza have created a theory describing how non-reciprocity can be induced…
New approach solves a persistent problem of intermittency that has hindered use of the tiny…
Novel color photography using a high-efficiency probe can super-focus white light into a 6-nanometer spot…
Researchers from Osaka University have improved the transfer efficiency between quantum information carriers, in a…
The findings could inform the design of new materials such as iridescent windows or waterproof…
New microscopy reveals that perovskites’ efficiency comes from “good” chemical disorder mitigating “bad” defects, unlocking…
Real-Life Feeling at Online Video Conferences Video conferencing played a key role during the COVID-19…
Magnetene could have useful applications as a lubricant in implantable devices or other micro-electro-mechanical systems.…
Scientists built the first cellular nanocomputer, controlling cancer-linked protein activity with light and drugs. The…
Protein-based vaccine elicits strong immune responses in mice; approach could be used for other diseases.…
An international team of researchers reports in Nature Physics on how light and electrons move…
Spontaneous wide-area spreading of oil on water inspires a facile energy-saving route of crafting electrically…
Heterostructures of atomically thin layers help control heat transfer. Researchers from Tokyo Metropolitan University have…
The technology could be developed as a rapid diagnostic for COVID-19 or other emerging pathogens.…
Atomically thin black phosphorus enables ultra-fast light control, promising breakthroughs in displays, data transmission, and…
Metalens-based design shrinks footprint, making optical traps practical for precision sensing and measurements. Researchers have…
A new method designs nanomaterials with less than 10-nanometer precision. It could pave the way…