She is a pioneer in
advanced electron microscopy to analyse dynamic gas - catalyst reactions on the atomic scale.
Next, they used
an advanced electron microscopy technique that tilts samples in an electron beam and provides structural information in 3D.
«The JEOL Center for Nanoscale Solutions will be the most
advanced electron microscopy cluster available for probing the atomic structure and properties of materials,» says JEOL USA President Peter Genovese.
Utilizes
advanced electron microscopy techniques to study nanoscale structure and defects that determine the utility of functional materials, such as superconductors, multiferroics, and other energy related systems including thermoelectrics, photovoltaics, and batteries.
Not exact matches
The researchers studied the diamond samples using a combination of
advanced transmission
electron microscopy techniques at EPFL's Interdisciplinary Centre for Electron Mic
electron microscopy techniques at EPFL's Interdisciplinary Centre for
Electron Mic
Electron Microscopy.
COOL
ADVANCE Cryo -
electron microscopy, an imaging technique that involves flash freezing molecules to see their structures, has won its inventors the Nobel Prize in chemistry.
The reported femtosecond time resolution of four - dimensional (4D)
electron microscopy represents an
advance of 10 orders of magnitude over that of conventional EELS methods.
An international team led by researchers from the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) used
advanced techniques in
electron microscopy to show how the ratio of materials that make up a lithium - ion battery electrode affects its structure at the atomic level, and how the surface is very different from the rest of the material.
Dr. Taraska's lab studies the structural cell biology of exocytosis and endocytosis with
advanced imaging methods including live cell
microscopy, superresolution fluorescence, and
electron microscopy.
Advances in
electron microscopy and native mass spectrometry enabled the researchers to determine that a critical component of the signaling system, anchored protein kinase A, remains intact during activation.
Taking advantage of the latest
advances in
electron microscopy and computer - controlled imaging, Seung and his team are creating some of the most detailed three - dimensional reconstructions of cortical gray matter ever made.
Furthermore, so as to understand the chemical and physical nature of the shaping process, standard characterization techniques (spectroscopy and
electron microscopy) have been employed, as well as new theoretical models and
advanced computer simulation techniques.
The researchers used a combination of
advanced electronic structure calculations, magnetic property measurements, and revolving scanning transmission
electron microscopy (revolving STEM) to see what was happening at the atomic scale in NiFeCrCo.
The authors also employed other
advanced imaging techniques — including
electron microscopy and super-resolution imaging — to discover that the formation, and subsequent loosening, of these contacts is regulated by a lysosomal protein called RAB7.
Using confocal laser
microscopy and
electron microscopy, coupled with the use of
advanced synchrotron techniques at the Swiss Light Source, in Villigen (Switzerland), and at the Canadian Light Source in Saskatoon, Canada, the team was able to show that not only the morphology of microbial twisted structures is preserved after long incubations under diagenetic conditions, but also organic remnants can be detected in the mineralized twisted structures.
Research problems that are just out of reach today but that could be made accessible by
advances in
electron microscopy include studies of the little pores that form in our cells walls and which are centrally important in the regulation of all life processes as well as new nano - structured materials that are ultra-light yet strong, allowing reduced energy consumption in vehicles.
The team partnered with University of California, San Diego, professor and
microscopy expert Mark Ellisman, one of the paper's coauthors, to exploit an
advanced form of
electron microscopy that tilts samples in an
electron beam enabling their 3D structure to be reconstructed.
Advanced fluorescence
microscopy will be complemented by
electron microscopy approaches for ultrastructural characterization of cellular microcompartments.
The Calgary
Microscopy and Imaging Facility (MIF) is a world - class university - wide facility housing transmission
electron microscopy (TEM), scanning
electron microscopy (SEM),
advanced light
microscopy, atomic force
microscopy (AFM), including single cell force spectroscopy (SCFS), and
advanced image processing for three - dimensional
electron and light
microscopy, directed by Professor Matthias Amrein.
The researchers used a novel combination of methods including synchrotron - based X-ray fluorescence
microscopy at ANL's
Advanced Photon Source and high - resolution
electron microscopy analyses at the Environmental Molecular Sciences Laboratory (EMSL) located at PNNL to characterize UO2 - cytochrome interaction.
Researchers used the 12 - ID - B and 32 - ID beamlines at the
Advanced Photon Source, also a DOE Office of Science User Facility, to take X-ray scattering measurements, as well as transmission X-ray
microscopy nano - computed tomography of the samples, scanning
electron microscopy and transmission
electron microscopy.
This study using cry -
electron microscopy on tau from an Alzheimer patient's brain substantially
advances what we know.
The company's strategy is to expand the business into the life sciences arena, where nanotechnology and biotechnology intersect This involves the combination of core technologies in areas such as low temperature, high magnetic field and ultra-high vacuum environments; Nuclear Magnetic Resonance; X-ray,
electron, laser and optical based metrology; atomic force
microscopy; optical imaging;
advanced growth, deposition and etching.
They then use photo emission
electron microscopy at the
Advanced Light Source to read out the magnetic structure from this region, demonstrating that the magnetism directly tracks the ferroelectric structure even though no magnetic fields were applied.