This is
a transmission electron microscopy image of different levels of crystallinity in the amorphous alloy.
This is a collage showing contains
a transmission electron microscopy image of the improved quantum dot and its representation (left), the schematic of the device which nicely illustrates «current - focusing» idea (middle), and the device under operation (right).
A transmission electron microscopy image of the new material SAM2X5 - 630 shows the metallic compound's disorganized inner structure, usually a hallmark of glass.
Not exact matches
Using
transmission electron microscopy, the team
imaged individual tubes and sized up the kinks.
In
transmission electron microscopy (TEM),
images are formed after
electrons pass through a thin sample.
To help with understanding the crystal structure, Steve Hackney, professor of materials science at Michigan Tech, was able to provide crucial high - resolution
images and diffraction patterns using
transmission electron microscopy on ultrathin samples prepared with a diamond knife by Owen Mills, director of Michigan Tech's Applied Chemical & Morphological Analysis Laboratory.
We thank Kathy West for providing a titi monkey photograph, Dr. Don Canfield for the gross pathology and histopathology
images as well as expert interpretation, and Grete Adamson for the
transmission electron microscopy.
Virginia Altoe
imaged the nanowires using
transmission electron microscopy in the imaging facility of the Molecular Foundry.
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.
For higher resolution
images and phase identification,
transmission electron microscopy (TEM) was employed including energy filtered TEM and
electron diffraction to elucidate the elemental distribution and phases throughout the penetrative oxidation.
In the first few years we successfully reconstructed an array of lamina cartridges and a medulla column using a newly developed automated reconstruction pipeline for
transmission electron microscopy (TEM)
images.
We offer state - of - the - art instrumentation, services, and training in sample preparation,
transmission electron microscopy and
image analysis.