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SEM

TEM

DualBeam

FIB

Amethyst.

In fact, it is iron oxide. Layer formed on the surface of a steel X70 during the corrosion test.

Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT

Taken by Quanta SEM microscope

Magnification: 5,000x
Sample: iron oxide.
Detector: Mix: SE plus BSE.
Voltage: 20 kV
Vacuum: 70 Pa
Horizontal Field Width: 59.7 µm
Working Distance: 14.9
Spot: 3.0

Liposome balls

Liposomes TEM imaging at room temperature .

Courtesy of Mr. Durga Prasad Muvva , UGC-Networking Resource Centre, School of Chemistry and The Centre for Nanotechnology, University of Hyderabad

Taken by Tecnai microscope

Magnification: 9900
Voltage: 200 k V
Horizontal Field Width: 2.00um
Working Distance: 3
Spot: 3

Bacteriophage T4 Virus

False-coloured image of T4 bacteriophage incubated with a de novo-designed self assembling peptide fibre (SAF). Small peptides, 28 amino acids long, self assemble to form fibres ~80 nm wide and ~40 microns long. The T4 tail striation distance was being used as a high-resolution calibrant to register the lateral striations of the fibre.

Courtesy of Thom Sharp

Taken by Tecnai microscope

Magnification: 50,000x
Sample: Self-assembling peptide fibre + T4 bacteriophage
Voltage: 200 kV

Utricularia Aurea Seed

Utricularia Aurea Seed

Courtesy of Azizi Abd. Jalil

Taken by Quanta SEM microscope

Magnification: 2500x
Detector: SE
Voltage: 10kv
Vacuum: 60Pa
Horizontal Field Width: 40μm
Working Distance: 20.4 mm
Spot: 5 nA

Inner Quartz Plasma Tube

Particles were found on the wafer surfaces inline after a plasma was generated through this quartz tube. I cracked open the tube and found how the plasma was etching into the quartz, revealing these structures that would eventually thin enough to break off and land on the wafer.

Courtesy of Mr. Noel Forrette , IM Flash

Taken by Magellan XHR SEM microscope

Magnification: 150x
Sample: Quartz
Voltage: 5 kV
Working Distance: 4.0 mm

Cryo on Danish Cheese

Hight vacuum cryo (Quorum PP2000)image of an un-coated Danish variety of cheese, which was plunged freeze into liquid nitrogen.

Courtesy of Ramona Mateiu

Taken by Quanta SEM microscope

Magnification: 5034X
Sample: Cheese
Detector: ETD
Voltage: 1.8
Vacuum: HV
Horizontal Field Width: 50.9 um
Working Distance: 5.8
Spot: 1.5

Hydrothermal Worm

Hydrothermal Worm marine organism imaged on a Quanta SEM

Courtesy of Philippe Crassous

Taken by Quanta SEM microscope

Magnification: 525x
Detector: SE
Voltage: 10 kV
Vacuum: 10-4 mbar
Horizontal Field Width: 568μm
Working Distance: 10 mm
Spot: 3 nA

Intestinal Bacteria

The human intestine contains hundreds of differend kinds of bacteria. Some of it can be seen here.

Courtesy of Oliver Meckes

Taken by Quanta SEM microscope

Magnification: 7500x
Sample: Bacteria, intestine,
Detector: SE+BSE
Vacuum: high
Working Distance: 10mm
Spot: 3

Cu-Zn Neuron Network

Cu-Zn intermetallics after dealloying of brass

Courtesy of Mrs. Seda Oturak , Middle East Technical University

Taken by Nova NanoSEM microscope

Magnification: 8000x
Sample: Copper-zinc (brass)
Detector: SE
Working Distance: 4.0 mm
Spot: 3.5

Fuel Cell Electrode

Fuel cell electrode with catalyst particles, clearly revealed from the substrate thanks to precise in-lens BSE detection. Imaged with 2keV landing energy at very high magnification. Product: Verios SEM

Taken by Verios XHR SEM microscope

Root canal

Side view of the apical third of the root canal of a maxillary lateral incisor with necrotic pulp and chronic periapical lesion adhered to the tooth structure.

Courtesy of Ms. Thaís Silva , Instituto Nacional de Tecnologia

Taken by Quanta SEM microscope

Magnification: 130X
Sample: Tooth
Detector: Mix SE+ BSE
Voltage: 20 kV
Horizontal Field Width: 2.30 mm
Working Distance: 15.4 mm
Spot: 4.0

Yellow Pepper

Image of black pepper flake; courtesy of student Sylvana Sawires.

Courtesy of Alyssa Calabro

Taken by Quanta 3D microscope

Bacterial Biofilm

Low vacuum mode image (false-colored) of a bacterial biofilm growing on a micro-fibrous material.

Courtesy of Paul Gunning, Smith and Nephew

Taken by Nova NanoSEM microscope

Magnification: 12000x
Detector: LVD
Voltage: 5.00 kV
Vacuum: low vac
Horizontal Field Width: 4 μm
Working Distance: 4.6mm
Spot: 3.0 nA

Developing Glandular Trichomes of Basil

Formation of glandular trichomes on lower leaf surface of a young leaf of basil (Ocimum basilicum). The smaller trichomes with four evident cells have just formed and the cuticles covering their four glandular cells still adhere to the glandular cells. Three of the larger trichomes are more mature and essential oils secreted from the glandular cells of these trichomes have caused the cuticles covering them to separate from the cells and balloon outward, hiding the glandular cap cells below. This unfixed leaf was imaged with an FEI Quanta 200F SEM in environmental mode at Washington State University’s Franceschi Microscopy and Imaging Center. Scale bar = 150 µm.

Courtesy of Glenn Turner

Taken by Quanta SEM microscope

Magnification: 400 x
Sample: unfixed leaf of basil (Ocimum basilicum)
Detector: GSED
Voltage: 20 kV
Vacuum: 130 Pa
Horizontal Field Width: 376 µm
Working Distance: 9.9 mm
Spot: 3.0

A billion year old microfossils

Well preserved ~1 billionw year old Organic microfossils were found at Bitter Springs Formation of Australia. The FIB was used at NASA-JSC Labs. to prepare ultra-thin cross sections and then HRTEM and STXM/XANES analyses were performed.Together these analyses of FIBed organic microfossils from Early Earth materials open up a new line of research where we can more specifically characterize remnants of early life.  Data from these studies would provide insight into recognizing fragmentary organic remains from living systems from either the early Earth or extraterrestrial bodies. In the picture, the cross section of filamentous microfossils are visible.

Courtesy of ZIA RAHMAN

Taken by Quanta 3D microscope

Magnification: 6,000x
Sample: Ancient filamentous microfossils
Detector: SE
Voltage: 10
Vacuum: 1.09e-6 Torr
Horizontal Field Width: 24.80 um
Working Distance: 9.8
Spot: 4

fireball

Hydrothermally synthesized microclusters of SrCuSi4O10 crystals. We are interesting in exploring the hydrothermal chemistry of the metal copper tetrasilicate system in order to better match the size and morphology of our NIR emitting crystals to application.

Courtesy of Dr. Eric Formo , UGA

Taken by Teneo microscope

GaN on Patterned Sapphire

This picture is initial growth state of GaN on patterned sapphire. 

Courtesy of miyang kim

Taken by Nova NanoSEM microscope

Magnification: 20000X
Detector: SE (ETD)
Voltage: 10KV
Vacuum: .3mbar
Working Distance: 4.9 mm

J shaped nanostructures

J`s like nano structures made out of 130 nm gold thick adhered by 5nm Ti on the surface of 25x25 mm quartz substrate.

Courtesy of Mrs. Nadia Abdulrahman , Glasgow University

Taken by Nova NanoSEM microscope

Magnification: 79,079
Detector: Helix
Voltage: 30 kV
Vacuum: 3 mbar
Horizontal Field Width: 2.00 um
Working Distance: 5.2
Spot: 3.5

Purpurin

Purpurin with silicon balls

Courtesy of Dr. Mariana Stankova , URV

Taken by Quanta SEM microscope

Magnification: 180x
Sample: purpurin particles
Detector: LFD
Voltage: 15 kV
Vacuum: 0.68 Torr
Horizontal Field Width: 373 um
Working Distance: 14.4
Spot: 3.9

The liliputien king ring

Diatome

Courtesy of Fabrice GASLAIN

Taken by Nova NanoSEM microscope

Magnification: 4000x
Sample: diatome
Detector: CBS
Voltage: 2 kV
Horizontal Field Width: 31.8 µm
Working Distance: 5.0 mm
Spot: 4.5

Polymer Film Defect

The defect of thin polimer film on silicon substrate. (without any image processing)

Courtesy of Alexey Kolomiytsev

Taken by DualBeam microscope

Magnification: 2,000x
Detector: SE
Voltage: 10 kV
Vacuum: high vacuum
Horizontal Field Width: 128 μm
Working Distance: 5.2 mm
Spot: 3.0 nA

ZnO Nanowire Cross Section

ZnO nanowire bundle in cross section, prepared by Helios FIB. ZnO supplied by Kathy Han from Oregon State University. Imaging and FIB work performed by Jeff Ditto at CAMCOR (University of Oregon).

Courtesy of Kurt Langworthy

Taken by Helios NanoLab microscope

Magnification: 20000x
Detector: TLD
Voltage: 2. kV
Horizontal Field Width: 5 μm
Working Distance: 4.0 mm

Zebrafish

The Scanning Electron Microscope (SEM) image is of the head of an embryonic Zebrafish. This is a model organism currently being used for studies into the genetic causes of neurodegeneration. This research project involves Kim Wager, a Ph.D. student jointly supervised by Dr Claire Russell (RVC) and Professor Robert Harvey (UCL School of Pharmacy). The Zebrafish was imaged under a FEI Quanta 200F Scanning Electron Microscope. Firstly, the sample was chemically fixed in 4% (w/v) paraformaldehyde in 0.1M Sodium Cacodylate buffer, followed by dehydration in graduated alcohol and drying in a Leica Critical Point (CPD300) dryer. Prior to imaging, the specimen was given a 5nm gold coating in a Quorum Q150 Sputter coater and imaged at 5KV. In addition, a high tilt angle of 65 degrees enhanced the full structure of the head region. A high-resolution digital image was captured, imported into Photoshop and was artistically coloured by Ms Annie Cavanagh.

Courtesy of David McCarthy

Taken by Quanta SEM microscope

Magnification: 500
Sample: Biological
Detector: SE
Voltage: 5KV
Vacuum: 112/e-3 Pa
Horizontal Field Width: 512
Working Distance: 15mm
Spot: 2

Spine of Argulus foliaceus parasite

this spine it use of this parasite to fix on the fish

Courtesy of Mr. Badar Al-saqer , university of dammam

Taken by SEM microscope

Knot Human Hair

Knot human hair

Courtesy of Frans Holthuysen

Taken by Nova NanoSEM microscope

Magnification: 400x
Sample: Hair
Detector: SE
Voltage: 7kv
Working Distance: 3 mm
Spot: 3 nA