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Atomic force microscope suspension system abstract image Atomic force microscopy (AFM) also called scanning force microscopy (SFM) uses an atomic-
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Atomic force microscope suspension system abstract image Atomic force microscopy (AFM) also called scanning force microscopy (SFM) uses an atomic-
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Atomic force microscope abstract image Atomic force microscopy (AFM) also called scanning force microscopy (SFM) uses an atomic-sized tip to probe
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Silicon hardness test coloured AFM
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Nanoindenter for hardness testing
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Nanoindenter for hardness testing
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Martian dust AFM image
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White blood cell Coloured atomic force micrograph (AFM) of a leukocyte (white blood cell) on an endothelial surface White blood cell are part of the
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Red blood cells Coloured atomic force micrograph (AFM) of erythrocytes (red blood cells) Red blood cells are biconcave giving them a large surface
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Butterfly wing surface Coloured atomic force micrograph (AFM) of the surface of a scale from the wing of a butterfly The tiny holes in the scales di
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Endothelial cells AFM
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Endothelial vacuoles coloured AFM
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Endothelial cytoskeleton coloured AFM
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Endothelial cytoskeleton Coloured atomic force micrograph (AFM) showing the cytoskeletons of living endothelial cells The cytoskeleton is made up of
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Marburg virus AFM
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Atomic force microscope (AFM) Also called a scanning force microscope (SFM) this device uses an atomic-sized tip to probe the surface of a material
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Ultra-high vacuum atomic force microscope
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Ultra-high vacuum atomic force microscope
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Ultra-high vacuum atomic force microscope
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Drug-DNA complexes Coloured atomic force micrograph (AFM) of plasmids (blue) of DNA (deoxyribonucleic acid) bound to the anti-cancer drug ditercalini
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Tiny poem Coloured atomic force micrograph (AFM) of a poem written in polymethylmethacrylate polymer by dynamic plowing lithography (DPL) This invol
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Plasma membrane proteins Coloured atomic force micrograph (AFM) showing the surface of a plasma membrane of an oocyte (egg cell) The membrane consis
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Plasma membrane AFM
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Plasma membrane proteins AFM
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Plasma membrane proteins AFM
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Plasma membrane proteins AFM
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Plasma membrane proteins AFM
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Plasma membrane proteins Coloured atomic force micrograph (AFM) showing the intracellular surface of a plasma membrane The membrane consists of a li
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Plasma membrane Coloured atomic force micrograph (AFM) showing a lipid bilayer plasma membrane and its membrane proteins (spikes) The membrane consi
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Drug-DNA complexes Coloured atomic force micrograph (AFM) of plasmids (pink) of DNA (deoxyribonucleic acid) bound to the anti-cancer drug ditercalini
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Plasma membrane Coloured atomic force micrograph (AFM) showing a lipid bilayer plasma membrane and its membrane proteins (spikes) The membrane consi
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Plasma membrane proteins AFM
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Plasma membrane proteins AFM
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Plasma membrane proteins Coloured atomic force micrograph (AFM) showing the surface of a plasma membrane (green) The membrane consists of a lipid bi
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Plasma membrane proteins AFM
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Synthetic lipid bilayer coloured atomic force micrograph (AFM) The membrane consists of a dual layer of phospholipids Each phospholipid consists of
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Synthetic lipid bilayer AFM
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Synthetic lipid bilayer coloured atomic force micrograph (AFM) The membrane consists of a dual layer of phospholipids Each phospholipid consists of
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Plasma membrane proteins AFM
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Polymer films Coloured atomic force micrograph (AFM) of a multi-layer thin polymer film The outer layers (granulated) are polyethylene the layers w
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Plasma membrane proteins AFM
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Plasma membrane proteins AFM
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Pinocytosis AFM and light micrograph
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Nuclear pore complexes AFM
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Nuclear pore complexes AFM
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Nuclear pore complexes AFM
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Nuclear pore complexes AFM
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Nuclear pore complexes AFM
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Nuclear pore complexes Diagram of a nucleus showing the area represented by a coloured atomic force micrograph (AFM right) of the nuclear surface T
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Yttrium oxide molecules Coloured atomic force micrograph (AFM) of molecules of yttrium oxide (Y2O3) on a thin film of yttrium Yttrium compounds are
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Nuclear pore complexes AFM
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Nuclear pore complexes AFM
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DNA and restriction enzyme Computer artwork of double-stranded DNA (deoxyribonucleic acid blue) and a restriction enzyme protein EcoKI (green) Rest
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DNA plasmid Coloured atomic force micrograph of a pGL3 plasmid (blue) of DNA (deoxyribonucleic acid) A plasmid is a loop of DNA that can exist in a
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DNA plasmid and enzymes AFM
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DNA plasmids AFM
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Reversible Bergman cyclization AFM image
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Reversible Bergman cyclization Atomic force microscopy (AFM) image of the starting point (a brominated aromatic compound) for a reversible Bergman cy
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Reversible Bergman cyclization Atomic force microscopy (AFM) image of the starting point (a brominated aromatic compound) for a reversible Bergman cy
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Silver nanowires Coloured atomic force micrograph (AFM) of silver nanowires (red) The nanowires lie about 20 nanometres apart on a calcium fluoride
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Reversible Bergman cyclization atomic force microscopy (AFM) images (right) and structural diagrams (left) Researchers used non-contact AFM to obser
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First atomic force microscope 1986 The principles behind atomic force microscopy (AFM) were developed from 1982 by scientists working at IBM Researc
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Coloured atomic force micrograph (AFM) of an aryne molecule This is the first image ever captured of this short-lived molecule and finally confirms t
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Naphthalocyanine molecule 3D representation of the experimental Kelvin probe force microscopy (KPFM) image of a single naphthalocyanine molecule rec
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MEMS data storage IBM research Small-scale MEMS (microelectromechanical system) prototype probe-based storage system This is compatible with the SD
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Olympicene IBM research Sealed glass jar containing the organic carbon molecule Olympicene in a powder form This molecule consists of five rings jo
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Olympicene IBM research Sealed glass jar containing the organic carbon molecule Olympicene in a powder form This molecule consists of five rings jo
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Coloured atomic force micrograph (AFM) of an activated platelet (green) and three erythrocytes (red blood cells) Platelets are small cell fragments
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Coloured atomic force micrograph (AFM) of an activated platelet (yellow) and three erythrocytes (red blood cells) Platelets are small cell fragments
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Molecular transistor Coloured atomic force micro- graph (AFM) of a transistor on the molecule scale It consists of electrodes (yellow) created by el
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Activated platelet AFM
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Activated platelet AFM
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Coloured atomic force micrograph (AFM) of an activated platelet (yellow) Platelets are small cell fragments found in blood plasma They activate in r
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Hexabenzocoronene molecule atomic force microscopy (AFM) image This molecule (hexabenzocoronene HBC) is a hydrocarbon that is being studied as a po
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Hexabenzocoronene molecule atomic force microscopy (AFM) image This molecule (hexabenzocoronene HBC) is a hydrocarbon that is being studied as a po
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Olympicene research Sealed glass jar containing the organic carbon molecule Olympicene in a powder form This molecule consists of five rings joined
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Ultrasharp silicon carbide tip Close-up of the tip of a wear-resistant and ultrasharp silicon carbide probe The tip is 100000 times smaller than th
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Millipede computer memory research View of a data storage method developed by IBM in a research project codenamed Millipede Announced in 2002 and
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Scanning probe microscopy (SPM) sample holder This is the SPM MultiProbe S from Omicron Nano Technology Samples are prepared and clean under vacuum
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Atomic force microscope
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Atomic force microscope (AFM) AFMs are used to study the surfaces of objects at an atomic level An extremely fine spring-mounted probe that is eith
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Atomic force microscopy Coloured scanning electron micrograph (SEM) of cantilevers and tips (triangles) as used in atomic force microscopy (AFM) An
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Atomic force microscopy Coloured scanning electron micrograph (SEM) of a cantilever used in atomic force microscopy (AFM) An atomic force microscope
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Atomic force microscopy Coloured scanning electron micrograph (SEM) of a cantilever and tip (triangle) as used in atomic force microscopy (AFM) An
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Atomic force microscopy Coloured scanning electron micrograph (SEM) of a cantilever and tip (triangle) as used in atomic force microscopy (AFM) An
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Atomic force microscopy Coloured scanning electron micrograph (SEM) of a polymer bead attached to a silicon-nitride cantilever and tip as used in at
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Atomic force microscopy methods Artwork showing the methods of operation of an atomic force microscope and a graph of the results on different surfac
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Petri dish surface Coloured atomic force micrograph (AFM) of the surface of a petri dish Fibres of plastic can be seen An atomic force microscope i
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Arene film Coloured atomic force micrograph (AFM) of a thin arene film on a graphite substrate An arene is an aromatic hydrocarbon compound such as
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Imaging molecules with atomic force microscopy These molecules are involved in charge transfers such as energy transport in living systems The molec
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Imaging molecules with atomic force microscopy These molecules are involved in charge transfers such as energy transport in living systems The molec
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Carbon-18 atomic force microscopy (AFM) image Structural diagram overlaid on a Laplace-filtered image of cyclo18carbon obtained during the resear
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Carbon-18 atomic force microscopy (AFM) image Laplace-filtered image of cyclo18carbon obtained during the research that produced a stable form of
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Atomic force microscope tip Coloured scanning electron micrograph (SEM) of a cantilever and tip Atomic force microscopy is arguably the most versati
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RNA nanostructures atomic force microscopy (AFM) image These hexameric ribonucleic acid (RNA) nanostructures have been built using a tiny machine c
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