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SEM
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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
Metal particles in Ceramics Sample - Product: Scios DualBeam
Taken by Scios microscope
Skeleton of a mytilus
Courtesy of Dr. Antonietta Gatti , Nanodiagnostics
Stereoscopic image of the intercrystlline pores in pyrite framboid within shale rock matrix.
Courtesy of Mr. Jan Goral , National Energy and Technology Laboratory
Taken by Helios NanoLab microscope
Urchin-like zinc oxide
Courtesy of Amal Al Ghaferi
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
This is image of the Ti35Nb alloy. Titanium alloys form the most versatile group of metallic materials used as biomaterials. Titanium and Its alloys are frequently utilized as implant materials in dentistry and orthopedic surgery.
Courtesy of Mr. FRANCISCO RANGEL , MCTI/INT
The image shows detail of the mouthparts of a caterpillar, showing the sensory organs on the tip of one maxillary palpus.
Courtesy of Miranda Waldron
Taken by Nova NanoSEM microscope
Taken by Explorer 4 CleanCHK microscope
Rough cut into structured IP photoresist. Structure was written with the 3D laser lithography system Nanoscribe. The "woodpile" was milled for an inside analysis.
Courtesy of Dr. Thomas Loeber , TU Kaiserslautern NSC
Cross section of a flexible polyimide substrate used for Cu(In,Ga)Se2 thin film based solar cells.
Courtesy of Eberhardt Josue Friedrich Kernahan
Petiole from Alcea Rosea
Courtesy of Laura Schlimgen
A platinum nano-wire deposited and milled to about 50nm diameter for use as a gas sensor.
Courtesy of Peter Heard
Taken by FIB microscope
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
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
Surface contact welding on titanium foil
Courtesy of Dr. Gilberto Del Rosario , Universidad Rey Juan Carlos
This is an SEM image from mouse lung.
Courtesy of Mr. SEYYED HABIB ALAVI , Oklahoma State University
Gold nanoparticles on an ITO surface under a layer of graphene. The structure of the ITO, which is transparent in optical microscopes, is visible in blue. The nanoparticles are clearly visible through the very thin layer of graphene. Sample prepared by Joanna Niedziolka-Jönsson for this article: dx.doi.org/10.1063/1.4867167
Courtesy of Dr. Martin Jonsson-Niedziolka , Institute of Physical Chemistry, Polish Academy of Sciences
Copper fibers created electrochemically.The image colored by photoshop.
Courtesy of wadah mahmoud
Taken by Inspect microscope
Сarbon black
Courtesy of Maksim Kalienko
Taken by Quanta 3D microscope
Cells on bioceramic
Courtesy of Mr. Nishad Kv , SCTIMST
Kaolin clay sheets
Pile of microorganisms
Courtesy of Gokhan ERDOGAN
ILLITE CLAY IN PORES OF SEDIMENTARY ROCKS
Courtesy of Eduardo Palacios
Taken by DualBeam microscope
Mouse macrophages communicate through bridges known as tunneling nanotubes. The nanotubes are active sites involved in endocytosis of nano particles and transport of nanoparticles between cells. This image was taken at a 52 degree tilt and the nanoparticles were false-colored red.
Courtesy of Dr. Rita Serda , University of New Mexico