Eliminating iron particles lodged inside large multiwalled nanotubes proved to be harder, but
transmission electron microscope images showed their numbers, especially in single - walled tubes, to be greatly diminished.
This is
a transmission electron microscope image of the membrane, provided by the Ernst Ruska - Centre.
Graphene's carbon atoms, depicted as bright blobs in this scanning
transmission electron microscope image, form a chicken wire pattern.
ZIKA BLOCKER A new therapy tested in mice curtails the effects of Zika virus (shown red in
this transmission electron microscope image).
Transmission electron microscope image of negative - stained, Fortaleza - strain Zika virus (red), isolated from a microcephaly case in Brazil.
A transmission electron microscope image taken at Argonne shows the honeycomb structure of the silicon nanowires.
A colorized scanning
transmission electron microscope image of the meteorite samples, showing the diamond (blue), inclusions (yellow) and the graphite region (grey)
Atomic resolution, scanning
transmission electron microscope image of part of a nanosheet of shear exfoliated graphene.
Not exact matches
Onstott
imaged what he could of those cells with a
transmission electron microscope.
a) Gold nanoparticle catalyst (Au / HAP - NC), b)
Images of gold nanoparticles (black dot in red circle) through
Transmission Electron Microscope, c) Annular Dark Field of gold nanoparticles through Scanning
Electron Microscope.
High - resolution
transmission microscope (left) and scanning
electron microscope images of a porous carbon sample studied for its ability to capture carbon dioxide from natural gas.
The microchips contained transparent windows so the beam from a
transmission electron microscope could pass through to create an atomic - scale
image.
Transmission Electron Microscope (TEM)
images of Pd - Ni - P metallic glass at different temperatures show the phase transition that involves structural changes in atomic clusters.
However, scanning
transmission electron microscopes only produce two - dimensional
images.
High - resolution
images from a
transmission electron microscope confirmed the connection.
A tiny phage attacks an E. coli cell in this false - color
image from a
transmission electron microscope.
In this technique, a
transmission electron microscope is used to record
images of a sub-micrometre-sized region from different angles in quick succession.
A composite
image shows a scanning
transmission electron microscope view of an antenna - reactor catalyst particle (top left) along with
electron energy loss spectroscopy maps that depict the spatial distribution of individual plasmon modes around the palladium islands.
An
image from the cryogenic
transmission electron microscope that colleagues at HU prepared confirmed their findings.
Using a powerful
transmission electron microscope, the team obtained ultrahigh - resolution
images and chemical data about the particle's surface.
A
transmission electron microscope: design,
image creation, interference effects, biological specimens» preparation (chemical methods - fixation, dehydration, infiltration, irrigation, preparation of ultra thin sections, contrasting, physical methods — low - temperatures processes, microwaves), TEM
image digitalization.
There, she managed a large number of confocal, advanced light,
transmission, and scanning
electron microscopes, as well as
image processing and bioinformatics.
The nanoparticle, as
imaged with an aberration - corrected scanning
transmission electron microscope, features eyes, nose and mouth of precious - metal platinum clusters embedded in a titanium dioxide face.
Scanning -
transmission electron microscopes irradiate the sample in a sequential raster pattern like scanning
electron microscopes, but still form
images from those
electrons that are transmitted through the specimen (i.e., the
electron detector is on the far side of the specimen, unlike the case for scanning
electron microscopes).
Another common trick is to display
images made from a
Transmission Electron Microscope (TEM) that they claim shows the small particles found in their products.
Many producers of ionic silver products (masquerading as colloidal silver) use
images produced by a
Transmission Electron Microscope (TEM) to show what they claim are silver particles in their products.