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Mechanically Embossed

mechanically embossed coating on film substrate

Courtesy of John Fitch

Taken by Quanta SEM microscope

Magnification: 6172 x
Detector: ETD
Voltage: 15.00 kV
Vacuum: 2.71e-7 Torr
Horizontal Field Width: 48.3 μm
Working Distance: 11.7 mm
Spot: 3.0 nA



Courtesy of Eduardo Palacios

Taken by DualBeam microscope

Nanowires on SI Substrate

Nanowires on Si substrate

Courtesy of John Turner

Taken by DualBeam microscope

Magnification: 15 kX
Detector: TLD-S
Voltage: 5 kV
Vacuum: 3.5e-5 mbar
Horizontal Field Width: ~ 14µm
Working Distance: 5 mm
Spot: 3 nA

Detail of 3 Chip Stack (2 of 3)

Courtesy of Fraunhofer-Munich

Taken by Vion Plasma microscope

Voltage: 30 kV
Horizontal Field Width: 24.9 μm

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

Explorer 4 Additive AppImage 6

Taken by Explorer 4 Additive microscope



Courtesy of Dr. Aldona Nowicka , Maria Curie-Sklodowska University in Lublin

Taken by Quanta SEM microscope

Magnification: 1,200
Sample: charcoal
Detector: SE
Voltage: 20 kV
Vacuum: 1,33e-4 Pa
Horizontal Field Width: 124um
Working Distance: 10mm
Spot: 4,5

Scent of Rose

Image obtained by degradation of an additive with the electron beam.

Courtesy of Marco Casinelli

Taken by Quanta SEM microscope

Magnification: 6000
Sample: Inorganic additive
Detector: SSD
Voltage: 20
Vacuum: 39.47
Horizontal Field Width: 44.93 um
Working Distance: 10.1
Spot: 5


a cross section of human nail

Courtesy of Mr. wadah mahmoud , The University of Jordan

Taken by Inspect microscope

Magnification: 10000x
Sample: human nail
Detector: SE
Voltage: 3 kV
Vacuum: high vacuum
Working Distance: 12.7
Spot: 3.0


Multiwalled carbon nanotube filled with crystalline material.

Courtesy of Ms. Elzbieta Pach , Institut Catala de Nanociencia i Nanotecnologia (ICN2)

Taken by Krios microscope

Magnification: 1.8 Mx
Voltage: 300 kV
Horizontal Field Width: 49.7 nm

Mechanical Pencil Lead.

The image shows details of the fracture surface of lead automatic pencil.

Courtesy of Francisco Rangel

Taken by Quanta SEM microscope

Magnification: 1300x
Sample: Lead automatic pencil
Detector: Mix: SE + BSE
Voltage: 30 kV
Horizontal Field Width: 230 μm
Working Distance: 14.1
Spot: 3.0

Clay Mineral Dickite

Large particle of the clay mineral Dickite.

Courtesy of Frank Friedrich

Taken by Quanta SEM microscope

Magnification: 2500x
Detector: SE
Voltage: 15 kV
Working Distance: 9.9mm
Spot: 3.0


Image of a cactus acquired and colorized by high school student Soomin Kim.

Courtesy of Mrs. Alyssa Waldron , Bergen County Technical Schools

Taken by Quanta SEM microscope

Zinc Oxide

Zinc Oxide crystal from a used refractory.

Courtesy of Laura Schlimgen

Taken by XL SEM microscope

Magnification: 150
Detector: BSE
Voltage: 25
Horizontal Field Width: 200
Working Distance: 14.2
Spot: 7.0

Pink Grapes



Taken by Quanta SEM microscope

Magnification: 9000x
Detector: SE
Voltage: 3 kV
Working Distance: 10.0
Spot: 3.0

welding contact surface

Surface contact welding on titanium foil

Courtesy of Dr. Gilberto Del Rosario , Universidad Rey Juan Carlos

Taken by Nova NanoSEM microscope

Magnification: 10,000x
Sample: titanium foil
Detector: TLD
Voltage: 3.00 kV
Vacuum: high vacuum
Horizontal Field Width: 29.8 um
Working Distance: 5.8 mm
Spot: 3.0

Faucet Aerator II

Aerators should be regularly kept cleaned or replaced. The mesh in the aerator can collect lead debris, and then leach this toxic metal into the water passing through it. Aerators cap the ends of most drinking-water faucets. In some cases, they’re used to conserve water by reducing a faucet’s maximum flow rate; in others their primary function is to concentrate the flow of water so that it delivers more pressure and cleaning power. But these little metal cages also collect debris. Including lead. And unless you’re regularly cleaning out those aerators, you might be developing a toxic mini gravel field through which your drinking water must pass before reaching your glass or coffee pot. Indeed, one lead poisoning case in North Carolina involved a child (see link below): www.dcwater.com/waterquality/faqs.cfm


Taken by Quanta SEM microscope

Magnification: 70x
Sample: Aerator
Detector: Mix: SE plus BSE
Voltage: 20 kV
Vacuum: 90 Pa
Horizontal Field Width: 4.26 mm
Working Distance: 15.6
Spot: 4.0

Kidney Stone

False-colored SEM image of the surface of a kidney stone. Urolithiasis is a common condition, with a prevalence of about 10%. Various types of urinary calculi have been described upon their mineral content and/or their morphology. The depicted stone is made of calcium phosphate crystals.

Courtesy of Prof. David Pérez-Morga , Université Libre de Bruxelles

Taken by Quanta SEM microscope

Magnification: 23,083x
Sample: Kidney stone
Detector: ETD
Voltage: 30 kV
Horizontal Field Width: 11.71 µm
Working Distance: 2.3
Spot: 3.0

Urtica Dioica

Lower, stinging part of a "Urtica Dioica" Leaf.

Courtesy of Giantonio Toldo

Taken by Quanta SEM microscope

Magnification: 150

PFIB Nano Machining wide FoV

PFIB Nano Machining wide FoV, Helios G4 PFIB

Taken by Helios G4 PFIB microscope


the beginning crystal in geomineral

Courtesy of Claudia Montanari

Taken by Quanta SEM microscope

Magnification: 8,000x
Sample: geopolimer
Detector: se
Voltage: 30kv
Vacuum: 5mbar
Horizontal Field Width: 40.0 um
Working Distance: 11.0
Spot: 6.0

Nano texture

Nano texture produced by the V400ACE FIB microscope

Taken by V400ACE microscope

Voltage: 30 kV
Horizontal Field Width: 10 μm
Spot: 7.7 pA

PAN Microfibers

PAN Microfibers and Microspheres

Courtesy of Oliver Meckes

Taken by Quanta SEM microscope

Magnification: 4000x
Detector: SETD + BSE
Voltage: 7 kV
Vacuum: high vac.
Working Distance: app.8 mm
Spot: 3 nA


Grid used for sample growth and TEM observation

Courtesy of Cyril GUEDJ

Taken by DualBeam microscope

Magnification: 20,000
Voltage: 10 kV


Taken by Explorer 4 CleanCHK microscope