The recent installation of a FT4 universal powder tester from Freeman Technology at Rutgers, The State University of New Jersey, in the USA, reflects the increasing adoption of the system by those working at the cutting edge of powder research.
NPL has recently been helping the Health Protection Agency (HPA) set up the National Nanotoxicology Research Centre (NNRC) at their Centre for Radiation, Chemical and Environmental Hazards with the aim of advancing research into the possible toxic effects of nanoparticles.
Positronium is a short-lived system in which an electron and its anti-particle are bound together. In 2007, physicists at the University of California, Riverside created molecular positronium, a brand-new substance, in the laboratory. Now they have succeeded in isolating for the first time a sample of spin polarized positronium atoms.
Veeco Instruments Inc. (Nasdaq: VECO), the leading provider of scanning probe microscopes (SPM) to the nanoscience community, today announced the winners of the second phase of the Veeco Labs Research Grant Program, “Energy Innovation.”
Working with highly sensitive photomultipliers, Indiana University nuclear physicist Hans-Otto Meyer has identified new attributes to a phenomenon called cryogenic electron emission.
Researchers have developed a way to enhance how brain tumors appear in MRI scans and during surgery, making the tumors easier for surgeons to identify and remove.
Scientists at Ohio State University are experimenting ...
Physicists at JILA have demonstrated a new tool for controlling ultracold gases and ultracold chemistry: electric fields.
Veeco Instruments Inc. (Nasdaq: VECO), the leading provider of scanning probe microscopes (SPM) to the nanoscience community, today announced the winners of the second phase of the Veeco Labs Research Grant Program, "Energy Innovation."
Using a pair of exotic techniques including a molecular-scale version of ice fishing, a team of researchers working at the National Institute of Standards and Technology (NIST) have developed methods to measure accurately the length of "nanopores," the miniscule channels found in cell membranes.
Researchers at the National Institute of Standards and Technology (NIST) and the Georgia Institute of Technology have demonstrated* that atomic scale moiré patterns, an interference pattern that appears when two or more grids are overlaid slightly askew, can be used to measure how sheets of graphene are stacked and reveal areas of strain.
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