Sentences with phrase «by scanning tunneling microscopy»
Karsten Lucht, Dirk Loose, Maximilian Ruschmeier, Valerie Strotkötter, Gerald Dyker, Karina Morgenstern: Hydrophilicity and microsolvation of an organic molecule resolved on the sub-molecular level by scanning tunneling microscopy, Angewandte Chemie International Edition, 2017, DOI: 10.1002 / anie.201711062
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The catalytic oxidation of carbon monoxide (CO) on a platinum (111) surface was studied by scanning tunneling microscopy.
Imaging spectroscopy provides information about the local environment of the atoms, similar to the incredible resolution offered by scanning tunneling microscopy.
The catalytic action of individual Ni atoms at the edges of a growing graphene flake was directly captured by scanning tunneling microscopy imaging at the millisecond time scale, while force field molecular dynamics and density functional theory calculations rationalize the experimental observations.
The dissociation of nitric oxide on a ruthenium (0001) surface was studied by scanning tunneling microscopy.
Not exact matches
The researchers verified the structure of the nitrogenated crystal by atomic - resolution scanning tunnelling microscopy imaging and confirmed its semiconducting nature by testing it with a field effect transistor.
The structure of RuO2 (110) and the mechanism for catalytic carbon monoxide oxidation on this surface were studied by low - energy electron diffraction, scanning tunneling microscopy, and density - functional calculations.
17 Not to be outdone, Stanford scientists used scanning tunneling microscopy and holograms to write information within the interference patterns formed by electron waves on a copper sheet.
As shown by Pacific Northwest National Laboratory's Dr. Michael Henderson and Dr. Igor Lyubinetsky in their invited review article, using scanning probe microscopy techniques, in particular scanning tunneling microscopy or STM, allows scientists to understand fundamental interactions that are key to our energy future.
Ever since the 1980s, when Gerd Binnig of IBM first heard that «beautiful noise» made by the tip of the first scanning tunneling microscope (STM) dragging across the surface of an atom, and he later developed the atomic force microscope (AFM), these microscopy tools have been the bedrock of nanotechnology research and development.
The team saw the oxygen atoms flow out of the cerium oxide clusters and slowly spread farther and farther away by combining high - resolution scanning tunneling microscopy with a conventional surface - sensitive technique, called Auger spectroscopy.
They combined a supersonic molecular beam with scanning tunneling microscopy and froze the molecular fragments by working at low substrate temperatures.
Nanoscience was well under way by then, spurred by inventions such as scanning tunneling microscopy (STM) and by the constant pressure in computing to get more and more processing and storage capacity out of less and less space.