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What's new in PerGeos 1.1
SEM
TEM
DualBeam
FIB
etched Fingerprint
Courtesy of Karin Whitmore
Taken by Quanta SEM microscope
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
this photo PhC-A-02 take the place of the photo PhC-A. The first stage of the feeding in the sea!!
Courtesy of Philippe Crassous
In the image are observed an elastic fibers. Specifically, it is an elastic polyester tape of masks commonly used in laboratories.
Courtesy of Maria Carbajo
Taken by Quanta 3D microscope
Surface and Cross-Section view of Cu(In,Ga)Se2 nanoballs grown on porous alumina membrane.
Courtesy of Eberhardt Josue Friedrich Kernahan
Three trichomes are on the leaf margin of Arabidopsis. The images is gotten by cryo-SEM.
Courtesy of Wann-neng Jane
Squalus acanthias skin surface.
Courtesy of Daniel Boyle
Taken by Nova NanoSEM microscope
Mammacarcinoma Cell attacked by Natural Killer Cell
Courtesy of Mr. Oliver Meckes , eye of science
Sulfur-rich crystal formations deposited on the RJ Lee Group Passive Aerosol Sampler. Collected at Oak Ridge National Laboratory. (Please note: Images captured by Darlene McAllister. Colored by Ashley Moore.
Courtesy of Ashley Moore
DEGRADATRION PROCESS OF FELDSPARS IN PORES OF SEDIMENTARY ROCKS
Courtesy of Eduardo Palacios
Taken by DualBeam microscope
The image is of gold coated fluorapatite grown on a protein coated PDMS substrate. This comes from a project which studies the enamel mineral formation. Enamel has a complex hierarchical structure which we would like to recreate.
Courtesy of Ms. Kseniya Shuturminska , Queen Mary University of London
Taken by Inspect microscope
Kaolinite and quatrz between dolomite rhombs
Courtesy of wadah mahmoud
DNA-directed self-assembled gold nanorods and nanospheres
Courtesy of Manoj Sridhar
Taken by Helios NanoLab microscope
ZnMnO nanoparticle of view from the front, these nanoparticles are able to trap air pollutants
Courtesy of Dr. Irma Estrada , Instituto Politecnico Nacional
Deprocessing 1x node, Helios G4 PFIB
Taken by Helios G4 PFIB microscope
Typical appearance of sulphides and bornite/djurleite particle exhibiting typical Widmannstatten texture.
Courtesy of Musarrat Safi
Taken by MLA microscope
Intel microprocessor unit field of view (MPU FOV) - 1µm with IEE decoration complex programmable logic device (CPLD)
100 nm Plasma-enhanced chemical vapor deposition (PECVD)oxide depostion upon untwanted microstructures. These unwanted microstructures appeared as a result of micro-masking during 1 um SiO2 dry etch.
Courtesy of Frans Holthuysen
Capturing and storing carbon dioxide (CO2) and other greenhouse gases deep underground is one of the most promising options for reducing the effects of energy production on the earth. Scientists at PNNL are using electron microscopes to understand the reaction of CO2 and minerals found underground. SEM image shows the aftermath of fayalite reacting with supercritical CO2 to form siderite, thereby capturing the CO2 in a solid, stable form. Research was funded by the U.S. Department of Energy.
Courtesy of Bruce Arey
Influenza A virus sample taken via FEI Tecnai TF20, liquid ethane plunge frozen.
Courtesy of Mr. Long Gui , University of Washington
Taken by Tecnai microscope
The hydration of calcium sulphate hemihydrate (CaSO4.0,5H2O) leads to gypsum (calcium sulphate dihydrate – CaSO4.2H2O). It is a highly exothermic reaction which occurs by a dissolution/reprecipitation mechanism: when the hemihydrate is mixed with water, a fraction of it dissolves to give a saturated solution with respect to Ca2+ and SO4 2- ions, which is supersaturated with respect to calcium sulfphate dihydrate leading to nucleation and crystal growth. ESEM images taken from the hemihydrate hydration process. One can follow water adsorption to the hemihydrate at a 100% RH and the resulting needle-like crystals which result after water elimination.
Courtesy of FRANCISCO RANGEL
Hydrothermal Worm marine organism imaged on a Quanta SEM
Shot peening of Ti-45Al-10Nb in air leads to partial amorphisation of the outermost layer and to the formation of a contaminant nanocrystalline (T, Al)N phase, presumably Ti2N. The figure shows dislocation recovery within a nano-crystalline grain embedded into the amorphous phase of the shot peened surface layer, as observed in situ. Three dislocations are marked by symbols. Stage (i): The isolated dislocation on the left hand side is relatively immobile. The two other dislocations are in a dipole configuration and propagate towards each other and are about to annihilate in stage (ii). Stage (iii) shows the situation after annihilation of the dipole dislocations; this is indicated by the continuous trace of the lattice planes. Observations made at room temperature with an acceleration voltage of 300 kV. It should be noted that the micrographs were sligthly compressed along the vertical direction in order to make the dislocations readily visible. The figure demonstrates the high electrical, thermal and mechanical stability of the instrument.
Courtesy of Fritz Appel
Image shows array of micro pillars FIB machined on a silicon wafer.
Courtesy of Saravanan Arunachalam
Investigation of the morphology and composition of an oxide layer formed on the surface of a steel X70 . Research conducted by the technologist Thais Mansur (Division of Corrosion / INT / MCTI ).
Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT