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SEM

TEM

DualBeam

FIB

Breast Cancer Cell

breast cancer cell, fixed and dehydrated.

Courtesy of Wadah Mahmoud

Taken by Inspect microscope

Magnification: 5,000x
Sample: Cancer cells
Detector: SE
Voltage: 2 kV
Working Distance: 12.4 mm
Spot: 2.5 nA

Powder Metallurgical Molybdenum

Powder metallurgical molybdenum based alloy containing hafnium- and molybdenum-carbides.

Courtesy of Christopher Pöhl

Taken by Versa 3D microscope

Magnification: 10000x
Sample: molybdenum alloy
Detector: SE
Voltage: 20 kV
Horizontal Field Width: 20.8 µm
Working Distance: 9.9 µm
Spot: 5.5

Zoning of Zircon

The Zoning of Zircon.

Courtesy of Xiaohu Tang

Taken by Nova NanoSEM microscope

Magnification: 6000x
Sample: Zircon
Detector: CL
Voltage: 10kV
Vacuum: 4E-5 mbar
Horizontal Field Width: 50um
Working Distance: 12.0 mm
Spot: 5.0 nA

Hotbed for TEM

An in-house unltra-clean and ultra thin C grid made for customized TEM sample placement.

Courtesy of Mr. liang hong , WDC

Taken by Helios NanoLab microscope

Magnification: 1,500
Sample: C/Cu
Detector: External
Voltage: 3kv
Vacuum: high
Horizontal Field Width: 138um
Working Distance: 4mm
Spot: 2

Swollen particles of porcine gelatin and water soluble natural dye

Porcine gelatin containing natural dye developed to increase the potential application of natural dyes in powder for preparation of desserts, drinks, jelly beans, confectionery, in order to make these healthier food products and reduce the consumption of artificial dyes directly related to toxicological problems to human health. The image shows the high power particles present to absorb moisture and become swollen.

Courtesy of Dr. Thaís Passos , INT

Taken by Quanta SEM microscope

Magnification: 10.000x
Sample: silicon
Detector: Mix - BSE plus SE
Voltage: 20 kV
Vacuum: 4.76e-3 Pa
Horizontal Field Width: 29,8 µm
Working Distance: 15.8 mm
Spot: 2.0

Dance of the spinning tops II

Microstructures grown by MOCVD (metalorganic chemical vapour deposition). Courtesy of Dr. Marco Antonio Sacilotti who is co-author of the image and responsible for this scientific research.

Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT

Taken by Quanta SEM microscope

Magnification: 5,000x
Sample: Gallium Microsphere grown by MOCVD
Detector: LFD
Voltage: 20 kV
Vacuum: 120 Pa
Horizontal Field Width: 59.7 µm
Working Distance: 12

Utricularia Striatula Seed

Seed of Utricularia Striatula

Courtesy of Azizi Abd. Jalil

Taken by Quanta SEM microscope

Magnification: 400x
Detector: ETD
Voltage: 20k V
Vacuum: 60
Horizontal Field Width: 300μm
Working Distance: 22.4 mm
Spot: 5 nA

PVP nanofibers

PVP nanofibers prepared by electrospinning

Courtesy of Dr. Wei Luo , Oregon state university

Taken by Quanta SEM microscope

Magnification: 20,000X
Sample: PVP
Detector: SE
Voltage: 10 kV
Vacuum: .3mbar
Horizontal Field Width: 14.9μm
Working Distance: 4.7 mm
Spot: 3.0

Package Bump x-section

Package Bump x-section, Helios G4 PFIB

Taken by Helios G4 PFIB microscope

Fungi

Fungi

Courtesy of Fernanda Santos

Taken by Inspect microscope

Magnification: 800x
Sample: Biology
Detector: SE
Voltage: 20 kV
Horizontal Field Width: 100 μm
Working Distance: 26.1mm
Spot: 4.0

Galvanized Sheet Steel II

Corrosion product into a galvanized sheet steel after corrosion testing simulating corrosive marine environment.

Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT

Taken by Quanta SEM microscope

Magnification: 1500X
Sample: Galvanized Sheet Steel
Detector: MIX: BSE plus SE
Voltage: 20 kV
Vacuum: 130 Pa
Horizontal Field Width: 199 μm
Working Distance: 14.9
Spot: 3.0

particles and plates

Hydrothermally synthesized BaFeSi4O10 crystals of varying sizes. We are interested in the hydrothermal chemistry of BaFeSi4O10 both for what insights this method can provide into the geological formation of gillespite, the mineral form of BaFeSi4O1O, and as a potential route for making novel hybrid materials with other metals.

Courtesy of Dr. Eric Formo , UGA

Taken by VolumeScope microscope

Ice cream

Pyramidal shape (ice cream like) of a GaP nano-column tipped by a spherical ball containing Ga + In metallic liquid. The metallic ball is coverd by a carbon nano-membrane. The structure was grown by the Metallorganic Chemical Vapor Phase Technique. Courtesy of INT-NE and Professor Marco Sacilotti/UFPE

Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT

Taken by Quanta SEM microscope

Magnification: 45,000x
Sample: GaP + In nano-structure
Detector: ETD
Voltage: 30 kV
Horizontal Field Width: 3.3 μm
Working Distance: 9.7

Gold Nanorod

Gold nanorod tomographic reconstruction.

Courtesy of Hadas Katz-Boon

Taken by Krios microscope

Magnification: 910000x
Detector: HAADF-STEM
Voltage: 300 kV

Tricomes on Squash leaf surface_2

Tricomes on Squash leaf surface Order: Cucurbitales Family: Cucurbitaceae Genus_species: Cucurbita maxima Scanning electron microscope image of lower leaf surface, showing stomates and tricomes.

Courtesy of Louisa Howard

Taken by Quanta SEM microscope

Magnification: 690
Sample: botanical_leaf
Detector: SE
Voltage: 10kV
Working Distance: 11.1
Spot: 3.0

4 µm Diameter Interconnecting Spheres

PFIB section and image through wafer-to-wafer bond region, exposing 4 µm diameter interconnecting spheres.

Courtesy of SINTEF

Taken by Vion Plasma microscope

Voltage: 30 kV
Horizontal Field Width: 17.1 μm

Dandelions

Hybrid inorganic/polymer based photovoltaic nanodevices offer the promise of low cost large area conversion of solar energy to electricity. Nanostructures of zinc oxide have shown supreme capabilities in emerging technologies ranging from solar energy harvesting to biosensing. However, the ability to control the size and position of these nanostructures is crucial for fabricating nanodevices with remarkable properties and astonishing solar energy conversion efficiencies. Herein, we present a collection of scanning electron micrographs of zinc oxide nanostructures prepared by low temperature hydrothermal methods Image taken and Processed by Luisa Whittaker PhD.

Courtesy of Gerald Poirier

Taken by Quanta SEM microscope

Magnification: 25000x
Sample: ZnO nano wires
Detector: SE
Voltage: 15Kev
Vacuum: -5 torr
Working Distance: 10mm
Spot: 3

Silica Nanospheres

Silica nanospheres exposed to laser radiation on a silicon substrate.

Courtesy of Luca Boarino

Taken by Inspect microscope

Magnification: 6000x
Sample: Silicon
Detector: SE
Voltage: 2 kV
Vacuum: 0.3 mbar
Horizontal Field Width: 5µm
Working Distance: 15 mm
Spot: 3.0 nA

Zirconia Grains

Fine Detail of Grains on Thermally Etched Dental Zirconia.

Courtesy of Mr. William Monroe , University of Alabama at Birmingham

Taken by Quanta SEM microscope

Sample: Thermally Etched Dental Zirconia
Detector: SE
Voltage: 30 kV
Horizontal Field Width: 1.4 μm

Tungsten filament

Household incandescent lamps use Tungsten filament because of their electrical and mechanical properties. Tungsten has strength, ductility and workability, tungsten can readily be formed into the filament coils use in bulbs.

Courtesy of Gerald Poirier

Taken by Quanta SEM microscope

Magnification: 59x
Sample: Tungsten
Detector: SE
Voltage: 15Kev
Vacuum: -5 torr
Working Distance: 10.8
Spot: 3

Fingerprint

etched Fingerprint

Courtesy of Karin Whitmore

Taken by Quanta SEM microscope

Magnification: 100x
Sample: Silicon
Detector: ETD
Voltage: 10kV
Vacuum: 1.1e-5mbar
Horizontal Field Width: 2,98mm
Working Distance: 9.4
Spot: 3.0

Single-Crystalline Gold

Electrochemically grown single-crystalline gold

Courtesy of Dongchan Jang

Taken by Quanta SEM microscope

Magnification: 50000x
Sample: Gold
Detector: ETD
Voltage: 10 kv
Horizontal Field Width: 6 microns
Working Distance: 9.5
Spot: 3

Polymethyl Methacrylate

Electrospun polymethyl methacrylate(PMMA) fibres.

Courtesy of Urszula Stachewicz

Taken by Inspect microscope

Magnification: 3000x
Detector: SE
Voltage: 10 kV
Working Distance: 9.9 mm
Spot: 3.5 nA

carbon adsorbent

Carbon adsorbent designed for water filtering.

Courtesy of Mr. Michał Rawski , Jagiellonian University

Taken by Quanta SEM microscope

Magnification: 1000x
Sample: carbon
Detector: EDT
Voltage: 5kV
Vacuum: 4.7e-4
Horizontal Field Width: 149um
Working Distance: 10.1
Spot: 4.5

Composite of nanostructured hydroxyapatite and polymer

Microparticles formed by nanostructured hydroxyapatite crystals and biopolymers. Hydroxiapatite (HA) is one of the most biocompatible ceramics because it is similar to the mineral constituents of human bone and teeth. This composite are interesting biomaterial for medical applications, especially for bone replacement. The colors were obtained using the software FEI Company

Courtesy of Mr. Izamir Resende , Instituto Nacional de Tecnologia

Taken by Quanta SEM microscope

Magnification: 50,000X
Detector: SE
Voltage: 20 kV
Vacuum: 0,0000325 mbar
Horizontal Field Width: 5,97µm
Working Distance: 9.0 mm
Spot: 2.0