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SEM
TEM
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FIB
Crystals of pyrite in clay, framboids and octohedra
Courtesy of Dr. jim buckman , Heriot-Watt University
Taken by Quanta SEM microscope
This image shows the skin of a great white shark. The unique shape of the dermal denticles improve the fluid dynamics of the shark.
Courtesy of Mrs. Miranda Waldron , University of Cape Town
Taken by Nova NanoSEM microscope
A cleaning cross-section mill pattern of 50 x 50 μm is used t clean up the surface of the TSV section closer inspection (60 nA, 17 minutes).
Courtesy of FEI
Taken by Vion Plasma microscope
Calcium sulphate crystals on filter paper. Material provided by Nalco Champion recovered from a produced water sampled from a North Sea production well under seawater flooding.
Courtesy of Dr. Jim Buckman , Heriot-Watt University
Iron sulfide formed by corrosion of steel in acid solution saturated with hydrogen sulfide at 1 bar and 24ºC
Courtesy of Maria Jose Cancio
Bacteria
Courtesy of Mr. MUHAMMET AYDIN , Namık kemal university
Partially dried red blood cells clotted on the cotton fibres of a gauze wound dressing. Imaged at low vacuum to avoid charging of cotton fibres.
Courtesy of Paul Gunning
Nano Spyder
Courtesy of Frans Holthuysen
Image of an eggshell, magnified 3900x and colorized.
Courtesy of Matthew Sharp
Pyramidal shape (ice cream like) of a GaP nanocolumn tipped by a spherical ball containing Ga + In metallic liquid. The metallic ball is coverd by a carbon nanomembrane. The structure was grown by the Metallorganic Chemical Vapours Phase Technique. The colors were obtained by mixing the signals of secondary and backscattered electrons. The mixing is performed using the software FEI Company.
Courtesy of FRANCISCO RANGEL
Microstructures grown by MOCVD (metalorganic chemical vapour deposition).
Courtesy of Francisco Rangel
Diatome
Courtesy of Gokhan ERDOGAN
Nanostructured hydroxyapatite powder with biopolymers. Microparticles formed by nanoparticles of hydroxyapatite crystals, with needle shape and stabilized with polymer surfactants, resulting in a structure similar to a blackberry. In the field of regenerative medicine, there is a great use of this biomaterial due to the similarity to the main inorganic constituent of natural bone and teeth. The synthetic hydroxyapatite has excellent biocompatibility and bioactivity to be used as a suitable bone substitute.
Courtesy of Izamir Resende
The image shows a 10*10, 1.5mm long, 400 micron pitch Utah Neural Wireless Electrode array for communicating with individual neurons from the brain. The substrate consists of machined crisscross channels which are 500 μm deep, filled with glass frits (insulator between each electrode), with backside metallization (not visible in the picture) using microfabricaion techniques for integration with the electronics. The frontside of the array is machined into 100 electrodes on a wafer level followed by acid etching of the columns to form pointed needles with fine surface texture. The tips of all the electrodes are coated with Iridium oxide in order to communicate with neurons during the stimulation and recording from the brain.
Courtesy of Rohit Sharma
diatom
Courtesy of Mrs. Zehra Sinem YILMAZ , İzmir Institute of Technology Center for Materials Research
A scary metal oxide ghost is sticked onto a pyrolytic carbon sphere
Courtesy of Dr. Mauro Mazzocchi , Italian National Council of Research
I was having breakfast when I noticed some strange looking mold on the wood of the table where I was sitting. I was only expecting an amorphous surface when looking at the mold with the scanning electron microscope but those blue crystals on the image appeared … What are those strange crystals on the mold? They seem to be some ancient elven ruins from the micro world we cannot see with our eyes…
Courtesy of Mr. Marcos Rosado , Institut Catala de Nanociencia i Nanotecnologia
Taken by Magellan XHR SEM microscope
A nano silver tip on nano copper crystal.
Courtesy of wadah mahmoud
Taken by Inspect microscope
a crystal of some synthetic materials
Courtesy of Mr. Wadah Mahmoud , The University of Jordan
The sample (mold of bread) was critical point dried and sputtered with Au/Pd. Prepared by Claudia Mayrhofer Coloured by Margit Wallner
Courtesy of Angelika Reichmann
Powder metal-based samples are studied with SEM and EDX.
Courtesy of Mrs. DUYGU OGUZ KILIC , Izmir Institute of Technology- Center for Materials Research
This image is of salmonella bacteria, a low kV was essential in order to visualise the surface detail of the bacteria, so the image was taken with the VcD (backscatter detector), using beam decelleration.
Courtesy of Miranda Waldron
A blown filament from an IR lamp is shown on the image. The melted area seen on the tip is where it burned and cracked while working. The rest of the filament, that is in a healthy state, is a perfect and beautiful double spiral geometry .
Human Red Blood Cells
Courtesy of Mr. Nishad Kv , SCTIMST