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SEM

TEM

DualBeam

FIB

GOLD BUSH

GOLD LAYER ON DIAMOND, DIAMOND IS PATTERNED BY FIB

Courtesy of Dr. aravindan sivanandam , IIT DELHI

Taken by Quanta 3D microscope

Magnification: 20000
Sample: gold on diamond
Detector: se
Voltage: 16kv
Horizontal Field Width: 3 micron
Working Distance: 4

Bending Test

Microcrack after bending test, colored by Manuel Paller

Courtesy of Martina Dienstleder

Taken by DualBeam microscope

Sample: steel
Detector: ETD - SE
Voltage: 5 kV
Horizontal Field Width: 67µm
Working Distance: 6.0 mm

ZnO

Zinc Oxide

Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT

Taken by Quanta SEM microscope

Magnification: 2,872x
Sample: Zinc Oxide
Detector: Mix: SE plus BSE
Voltage: 20 kV
Vacuum: 70 Pa
Horizontal Field Width: 104 µm
Working Distance: 26.4
Spot: 3.5

Silicon

Hexagonal pattern etched in silicon during optical exposure of the photoresist, the contact between substrate and photomask was not optimal, causing the shape of the hexagons to be distorted due to diffraction phenomena.

Courtesy of Frans Holthuysen

Taken by Nova NanoSEM microscope

Magnification: 5,000x
Detector: SE
Voltage: 7 KV
Working Distance: 10.mm
Spot: 3

RAT BRAIN ORGANOTYPIC SLICE CULTURE

Picture shows the thickness of a rat brain organotypic culture, with the surface covered cells forming a flat surface

Courtesy of SARA REMUZGO MARTÍNEZ

Taken by Inspect microscope

Magnification: 2000X
Sample: brain tissue
Detector: EDT
Voltage: 20
Horizontal Field Width: 149
Working Distance: 9.6mm
Spot: 3.5

Human Tooth

Dentinal tubules viewed after demineralization using etching with 37% phosphoric acid for 15 seconds and 10% sodium hypochlorite for 1 minute.

Courtesy of FRANCISCO RANGEL

Taken by Quanta SEM microscope

Magnification: 8579x
Detector: MIX: SE (channel 1) and BSE (channel 2)
Voltage: 10 kV
Vacuum: 9.4 e-7 mbar
Horizontal Field Width: 29.8 μm
Working Distance: 11.0
Spot: 3.0 nA

Wafer by FIB

Cutting a small round piece (R = 10-20 um) from the surface of the wafer by FIB. Then release it and glue it to a cantilever to be used as a mirror.

Courtesy of Hozanna Miro

Taken by DualBeam microscope

Magnification: 5000x
Sample: Si/SiN then Ta2O5/SiO2/...30-40 layers
Detector: SED
Voltage: 5kV
Working Distance: 5 mm
Spot: 3 nA

Self-assembly Array of SiO2 Nanosphere

Single and multilayers self-assembly array of SiO2 nanospheres etched in CHF3 Reactive Ion Etching on diamond substrate

Courtesy of Enrico Emanuele

Taken by Quanta 3D microscope

Magnification: 50,000x
Sample: SiO2 nanospheres on diamond substrate
Detector: SE
Voltage: 10kV
Vacuum: 10^-6 mbar
Horizontal Field Width: 6,2 um
Working Distance: 10
Spot: 3.0

Titania Crystal on TiO2

Crystal growth of titania on TiO2 as a result of cation diffusion under a chemical gradient.

Courtesy of Anna Magraso

Taken by Quanta SEM microscope

Magnification: 1405x
Detector: SE
Voltage: 10 kV
Vacuum: high vacuum
Working Distance: 10 mm
Spot: 3 nA

Fallen Petals

Structure found on the oxide layer of an annealed structural steel.

Courtesy of Joern Leuthold

Taken by Nova NanoSEM microscope

Magnification: 2500x
Detector: ETD
Voltage: 5 kV
Vacuum: 3*10^-6 mbar
Horizontal Field Width: 119 µm
Working Distance: 7.7mm
Spot: 3

Nano Forest

FIB milling reveals a nano forest mountain range.

Taken by V400ACE microscope

Voltage: 30 kV
Horizontal Field Width: 38.3
Spot: 24 pA

Package Bump x-section zoom

Package Bump x-section zoom, Helios G4 PFIB

Taken by Helios G4 PFIB microscope

Neuron on DNA Surface

This is an embryonic nerve cell growing on DNA. In this system DNA is being studied as a tool to dynamically control surface adhesion for cells. Changing the cell behavior at different time intervals allows us to recreate the dynamic growth sequences that occur naturally in regenerating animals like newts.

Courtesy of Dr. Mark McClendon , Northwestern University

Taken by Quanta SEM microscope

Magnification: 8,000X
Sample: Embryonic Nerve Cell
Detector: SE
Voltage: 3kV
Vacuum: 2 e-3Pa
Horizontal Field Width: 20um
Working Distance: 6
Spot: 3

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

TSV Crossection 03

TSV Crossection 03, Helios G4 PFIB

Taken by Helios G4 PFIB CXe microscope

Flexible Polyimide Substrate

Cross section of a flexible polyimide substrate used for Cu(In,Ga)Se2 thin film based solar cells.

Courtesy of Eberhardt Josue Friedrich Kernahan

Taken by Quanta SEM microscope

Magnification: 5000x
Detector: TLD
Voltage: 10
Horizontal Field Width: 10
Working Distance: 6.8 mm
Spot: 3 nA

French point lace

Marine diatom

Courtesy of Philippe Crassous

Taken by Quanta SEM microscope

Magnification: 8339
Detector: SE
Voltage: 10
Vacuum: 10-4 mbar
Horizontal Field Width: 35.8
Working Distance: 10.1 mm
Spot: 3

Diatom - Ultrafiltration of Water

Ultrafiltration of water. Deposits on a reverse osmosis filter

Courtesy of Gilberto Del Rosario

Taken by Quanta SEM microscope

Magnification: 6,500 x
Sample: Diatom
Detector: SE
Voltage: 25 kV
Vacuum: high vacuum
Horizontal Field Width: 37,9 um
Working Distance: 9.5
Spot: 5.2

Eggs

Surface of activated carbon used as adsorbent in water treatment processes. Activated carbons are porous nature materials with high internal surface which gives them excellent adsorbent properties. This carbon has been prepared from biomass waste, specifically from walnut shells.

Courtesy of Dr. Maria Carbajo , UNIVERSIDAD DE EXTREMADURA

Taken by Quanta 3D microscope

Magnification: 700x
Sample: Activated carbon
Detector: SE
Voltage: 5 kV
Vacuum: 10-3 Pa
Horizontal Field Width: 250 μm
Working Distance: 10 mm
Spot: 5.0

Crazing of Paint

An area of Pt thin film deposited on the surface of a polished fine grained sample. Subjected to tensile mechanical stress, substrate and thin film show a different plastic behavior. Mixed together and material information was obtained by the use of the solid state below the lens detector in addition to beam deceleration.

Courtesy of Joern Leuthold

Taken by Nova NanoSEM microscope

Magnification: 16000x
Detector: vCD
Voltage: 3kV--LE 2keV
Vacuum: 3*10^-5
Horizontal Field Width: 18.6µm
Working Distance: 5.3 mm
Spot: 2 nA

surface coating materials

Powder metal-based samples are studied with SEM and EDX.

Courtesy of Mrs. DUYGU OGUZ KILIC , Izmir Institute of Technology- Center for Materials Research

Taken by Quanta SEM microscope

Magnification: 2500
Sample: iron-based surface coating materials
Detector: SE
Voltage: 15 kV
Vacuum: 5.49e-4 Pa
Working Distance: 8.4
Spot: 3

Purple Petal

Image of a flower petal; courtesy of student Sara Kuzmenka.

Courtesy of Alyssa Calabro

Taken by Quanta 3D microscope

Ceratium algae from river water

Ceratium algae filtered from river water

Courtesy of Dr. Louwrens Tiedt , North-West University, Potchefstroom Campus, Potchefstroom

Taken by Quanta SEM microscope

Magnification: 800X
Detector: SE
Voltage: 10 kV
Vacuum: 9.21e-6 mbar
Horizontal Field Width: 373µm
Working Distance: 8.2
Spot: 3.3

Calcium Carbonate Polymorphism

Calcium carbonate precipitated from solutions of ammonium carbonate and calcium acetate showing botryoidal agglomerates of vaterite nanoparticles self assembling into rhombs of calcite.

Courtesy of Robert Moser

Taken by Nova NanoSEM microscope

Magnification: 10,000x
Sample: calcium carbonate precipitates
Detector: vCD
Voltage: 10kV
Vacuum: 0.1mbar
Horizontal Field Width: 29.8
Working Distance: 4.3
Spot: 5.0

TiB2 Crystals

Fracture Surface of Spark Plasma Sintered TiB2 Ceramics

Courtesy of Mr. Karthiselva Sengottaian , Indian Institute of Technology Madras

Taken by Inspect microscope

Magnification: 160000
Sample: TiB2
Detector: SE
Voltage: 30
Working Distance: 8.9
Spot: 3.5