A microscope image shows the location in the brain of a mouse where nerve cells from the ear enter the brain and form cup - like synaptic connections with brain cells.
This microscope image shows the epidermis and the deeper dermis.
This electron
microscope image shows a dimer of silver plated gold nanoparticles.
An electron
microscope image shows flake - like nanoplatelets made of graphene quantum dots drawn from coal and graphene oxide sheets, modified with boron and nitrogen.
This microscope image shows induced pluripotent stem cells (iPSC) from our closest living relatives.
A scanning electron
microscope image shows cobalt - infused metal oxide - laser induced graphene produced at Rice University.
This dark - background
microscope image shows two sand grain - size Daphnia crustaceans.
A microscope image shows many of the immune system's dendritic cells that were collected from a 3 - D scaffold three days after in vivo injection.
The upper left electron
microscope image shows spaghetti - shaped organic polymers now used for organic light - emitting diodes, or OLEDs.
The electron
microscope image shows diamond nanoparticles suspended in oil.
A microscope image shows nerve cells that relay information from the ear to the brain in mice.
This microscope image shows green laser light shining from a single biological cell.
A microscope image shows the high surface area of hexagonal - boron nitride foam glued together with polyvinyl alcohol.
The microscope images show that R2TP is a large platform capable of putting HSP90 in contact with the kinases on which HSP90 must act.
Microscope images show that in normal skin (left) the top layer, called the epidermis (purple in bottom images), is fused to the dermis by laminin 332 (green, in top images) and other proteins.
A false - color electron
microscope image showing E. coli bacteria (green) trapped over xylem pit membranes (red and blue) in the sapwood after filtration.
Microscope images showed that the cells had begun to proliferate.
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.
Confocal
microscope images show far fewer horizontal cells generated in mice without Onecut1 (bottom panels) compared to those in normal mice (top panels).
Time - lapse
microscope images show the packing of chromosomes in a chicken cell's nucleus into tiny capsules.
Microscope image showing malaria - infected red blood cells (small round cells containing the parasite [dark dots]-RRB- sticking to brain endothelial cells (large blue - ish cells) that line the blood vessels supplying the brain.
Not exact matches
Scanning electron
microscope (SEM)
images showed that after a few hours the superficial contamination on corrugated surfaces was much lower than on plastic materials.
«One rather exciting feature is that the
images taken under the electron
microscope show the nanowires to have a slightly different shape,» says co-author Thomas Keller from DESY NanoLab.
Simulations (colored
images) of this process
showed the formation of tiny pores, which was in agreement with the structure (grayscale
image) observed in a scanning electron
microscope.
This
image, captured with an epifluorescence
microscope,
shows neural pathways known as «fiber tracts» that are trapped on hexagonal microstructures made of silicon.
A
microscope image of sediment
shows burned bone.
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.
Scanning electron
microscope (SEM)
images of the three main groups of large phytoplankton — diatoms, dinoflagellates, and coccolithophorids (those with coccolith shells)--
show that they can be arrestingly beautiful.
During each visit, workers would be
shown images from a compilation of 12 magnified
images of bacteria to demonstrate what it would like it under a
microscope.
The emitted light is blue - green, Lupton says, but
images accompanying the paper — taken with a scanning tunneling electron
microscope —
show the rotelle - and spaghetti - shaped molecules with a false yellow - brown color to provide good contrast.
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.
Images from an electron
microscope show a striking reordering of muscle fibres from a disordered state to the highly regular appearance of young muscle.
The electron
microscope images, or micrographs,
showed complex crystalline structures that formed in large part thanks to the shape of the gold nanoparticles.
ZIKA BLOCKER A new therapy tested in mice curtails the effects of Zika virus (
shown red in this transmission electron
microscope image).
Electron
microscope images of the foam
showed partially unzipped outer layers of the nanotubes had bonded to the graphene, which accounted for its strength and resilience.
Images taken with a fluorescent
microscope show the activity of a kinase (green) in tumor cells (bottom) compared to normal cells (top).
This
image shows a representative cement micropillar sample
imaged by scanning electron
microscope.
The bank has declined to release that original
image, which apparently
showed a woman with Asian features using a
microscope.
The two
images above
show parasitic worm eggs under a traditional
microscope (left) and with the iPhone version (right).
The topographic
image (see picture) from the
microscopes shows tiny scratches on the Winchester disc.
In contrast to the hazy
images shown in some museums and television documentaries, the right lighting and focusing can produce micrographs of startling clarity using original
microscopes or modern replicas (see slideshow).
The molecular bonds in a Pentacene molecule, by IBM Research (2009) Taken with an atomic force
microscope, which grew out of the technologies pioneered by Bennig and Rohrer's STM, this is the first
image ever taken that
shows molecular bonds.
The
image was taken with a confocal laser scanning
microscope and
shows cells giving strong inmmunofluorescence staining for CD3 antigen (green), indicating presence of cells of T - lymphocytes origin in the infarct zone of the heart tissue, counterstained nuclei with DAPI (blue).
Surface chemistry on nanosized gold particles,
shown here at low - magnification, left, and high - magnification, right, in
images produced with a scanning electron
microscope, was studied with infrared light produced by Berkeley Lab's Advanced Light Source.
A transmission electron
microscope image taken at Argonne
shows the honeycomb structure of the silicon nanowires.
The
microscope image of the dorsal closure of a fly embryo
shows alter - nating stripes of epithelial cells with aligned microtubule bundles (green) and epithelial cells treated with a microtubule - destroying drug (blue).
A colorized scanning transmission electron
microscope image of the meteorite samples,
showing the diamond (blue), inclusions (yellow) and the graphite region (grey)
This
image from a confocal
microscope shows neural stem cells (green) in the mouse hippocampus that are actively proliferating because they express Ki67 (red), a protein that is only present in proliferating cells.
An electron
microscope image of the film showing the embedded bismuth ferrite nanoparticles that give the flexible film its electric and magnetic properties (Image: YoungPak Lee / Hanyang Univer
image of the film
showing the embedded bismuth ferrite nanoparticles that give the flexible film its electric and magnetic properties (
Image: YoungPak Lee / Hanyang Univer
Image: YoungPak Lee / Hanyang University)
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.