This scanning
electron micrograph image shows the mucus - oozing folds on a tubelip wrasse's lips.
Pictured is a scanning
electron micrograph image of Diploneis puella.
Scanning
electron micrograph image of germanium nanowires electrodeposited onto an indium tin oxide electrode from aqueous solution.
This scanning
electron micrograph image shows the male and female reproductive organs in false color.
The process involves freezing virus particles and firing a stream of high - energy electrons through the sample to create tens of thousands of two - dimensional
electron micrograph images that are then combined to yield a composite high - resolution, three - dimensional view of the virus.
Not exact matches
The left
image shows a scanning
electron micrograph (SEM) of a basic scaffold made of many tiny mesoporous silica rods (MSRs) before they are coated with a thin supported lipid bilayer (SLB) with the incorporated T cell - stimulating cues.
The
electron microscope
images, or
micrographs, showed complex crystalline structures that formed in large part thanks to the shape of the gold nanoparticles.
The
image on the left, selected by Hirst from the Science Photo Library, is a coloured scanning
electron micrograph of a biopsy from the intestine of a child with small bowel cancer.
Colorized scanning
electron micrograph of Escherichia coli, grown in culture and adhered to a cover slip (
Image courtesy of the NIH)
Michael's
image shows COS - 7 cells ectopically expressing the Fcγ - receptor performing phagocytosis on beads opsonised with Immunoglobulin G. His false - colour scanning
electron micrograph shows filopodia and pseudopodia projecting around the beads, which will subsequently be fully engulfed.