A new technology platform from Northwestern University is able to image molecules at the nanoscale with super-resolution.
Scientists has developed a novel way to produce two-dimensional nanosheets by separating bulk materials with nontoxic liquid nitrogen. The environmentally friendly process generates a 20-fold increase in surface area per sheet, which could expand the nanomaterials' commercial applications.
Theoretical physicists at Rice University analyzed the electronic consequences of creating circuits in two dimensions by simulating the juxtaposition of different atom-thick materials like graphene and hexagonal boron nitride.
Future Science Group today announced the publication of a new article in Future Science OA looking to identify and define key terms associated with bioinks and bioprinting.
A new kind of lithium-oxygen battery developed at MIT, using glass nanoparticles of lithium oxides, could provide more energy, and much better stability and energy efficiency
A research team led by Natalie Artzi of MIT and Brigham and Women's hospital delivers drug, gene, and light-based therapy directly to tumor sites, with promising results.
Scientists at The University of Nottingham have demonstrated for the first time that it is possible to selectively sequence fragments of DNA in real time, greatly reducing the time needed to analyze biological samples.
The modified polyelectrolyte-magnetite nanocoating was applied to functionalize the cell walls of oil decomposing bacteria Alcanivorax borkumensis.
Scientists at EPFL and ETHZ have developed a new method for building microrobots that could be used in the body to deliver drugs and perform other medical operations.
In today's world of ever-increasing digital information storage and computation, the next information storage revolution seeks to exploit a novel effect arising from the relativistic physics of Einstein which allows to make a new type of magnet behave like cats.