New research from MIT and Tsinghua University in China reveals that an aluminum “yolk-and-shell” nanoparticle…
Browsing: Nanoscience
Nanoscience is the study of structures and materials on the scale of nanometers, billionths of a meter, where unique physical, chemical, and biological properties emerge. By exploring phenomena at the atomic and molecular level, nanoscience is unlocking new possibilities across diverse fields, from medicine and electronics to energy and materials science. This rapidly evolving discipline enables researchers to design materials and devices with unprecedented precision and functionality, driving breakthroughs such as targeted drug delivery, ultra-efficient solar cells, and quantum computing components. Stay up to date with the latest discoveries in nanoscience and its transformative potential.
In a newly published study, researchers reveal new insights into the coupling between wetting and…
A new study from MIT shows how nanoparticles can clean up environmental pollutants, revealing that…
Researchers from Rice University have completed the first theoretical analysis of how 3D boron nitride…
Using yarns made from niobium nanowire, researchers at MIT have developed a new approach to…
Using nanoparticles to deliver a nucleic acid (siRNA) into tumor cells in mouse models, scientists…
Researchers from MIT have designed a quantum-dot spectrometer that is small enough to function within…
You won’t have to shake, rattle and roll those last drops of condiments out of…
Researchers at Stanford University have developed a synchronous computer that operates using the unique physics…
Scientists from MIT have developed a frictional interface at the atomic level. The new technique…
Scientists from MIT have demonstrated a systematic way to produce nanofibers through electrospinning that boosts…
Engineers from MIT have developed a new device that measures the distance between phonon collisions,…
New research from MIT shows that a graphene layer one atom thick could quadruple the…
Researchers have developed a new non-invasive nanoscale imaging technique that allows them to convert electron…
Engineers from MIT and the University of Michigan have developed a new manufacturing process that…
By applying a DC voltage to layers of graphene and boron nitride, researchers have demonstrated…
In a newly published study, scientists from MIT reveal that the geometry of implantable devices…
By using the top electrode as the catalyst that turns plain silicon into valuable black…