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Atom Force Microscopy

AFM is one of the foremost tools for imaging, measuring, and manipulating matter at the nanoscale. For PFSA membrane, AFM has been applied to both measurements of surface textural features as well as the direct examination of ionic clustering. [Pg.74]

The ability to control the position of a fine tip in order to scan surfaces with subatomic resolution has brought scanning probe microscopies to the forefront in surface imaging techniques. We discuss the two primary techniques, scanning tunneling microscopy (STM) and atomic force microscopy (AFM) the interested reader is referred to comprehensive reviews [9, 17, 18]. [Pg.294]

AFM Atomic force microscopy [9, 47, 99] Force measured by cantilever deflection as probe scans the surface Surface structure... [Pg.313]

Friction can now be probed at the atomic scale by means of atomic force microscopy (AFM) (see Section VIII-2) and the surface forces apparatus (see Section VI-4) these approaches are leading to new interpretations of friction [1,1 a,lb]. The subject of friction and its related aspects are known as tribology, the study of surfaces in relative motion, from the Greek root tribos meaning mbbing. [Pg.431]

We have considered briefly the important macroscopic description of a solid adsorbent, namely, its speciflc surface area, its possible fractal nature, and if porous, its pore size distribution. In addition, it is important to know as much as possible about the microscopic structure of the surface, and contemporary surface spectroscopic and diffraction techniques, discussed in Chapter VIII, provide a good deal of such information (see also Refs. 55 and 56 for short general reviews, and the monograph by Somoijai [57]). Scanning tunneling microscopy (STM) and atomic force microscopy (AFT) are now widely used to obtain the structure of surfaces and of adsorbed layers on a molecular scale (see Chapter VIII, Section XVIII-2B, and Ref. 58). On a less informative and more statistical basis are site energy distributions (Section XVII-14) there is also the somewhat laige-scale type of structure due to surface imperfections and dislocations (Section VII-4D and Fig. XVIII-14). [Pg.581]

We confine ourselves here to scanning probe microscopies (see Section VIII-2B) scanning tunneling microscopy (STM) and atomic force microscopy (AFM), in which successive profiles of a surface (see Fig. VIII-1) are combined to provide a contour map of a surface. It is conventional to display a map in terms of dark to light areas, in order of increasing height above the surface ordinary contour maps would be confusing to the eye. [Pg.688]

The most popular of the scanning probe tecimiques are STM and atomic force microscopy (AFM). STM and AFM provide images of the outemiost layer of a surface with atomic resolution. STM measures the spatial distribution of the surface electronic density by monitoring the tiumelling of electrons either from the sample to the tip or from the tip to the sample. This provides a map of the density of filled or empty electronic states, respectively. The variations in surface electron density are generally correlated with the atomic positions. [Pg.310]

Giancarlo L C and Flynn G W 1988 Scanning tunneling and atomic force microscopy probes of self-assembled, physisorbed monolayers A/ / . Rev. Phys. Chem. 49 297... [Pg.320]

Rugar D and Flansma P K 1990 Atomic force microscopy Physics Today 43(10) 23... [Pg.1723]

Flansma P K, Elings V B, Marti O and Bracker C E 1988 Scanning tunnelling microscopy and atomic force microscopy application to biology and technology Science 242 209... [Pg.1723]

GiessibI F J 1995 Atomic resolution of the silicon (111 )-(7 7) surface by atomic force microscopy Science 260 67... [Pg.1724]

Wilson D L, Kump K S, Eppell S J and Marchant R E 1995 Morphological restoration of atomic force microscopy images Langmuir 265... [Pg.1724]

Mutter J L and Bechhoefer J 1994 Measurement and manipulation of van der Waals forces in atomic-force microscopy J. Vac. Sc/. Technol. B 12 2251... [Pg.1724]

Mate C M, Lorenz M R and Novotny V J 1989 Atomic force microscopy of polymeric liquid films J. Chem. Phys. 90... [Pg.1724]

Weisenhorn A L and Hansma P K 1989 Forces in atomic force microscopy in air and water Appl. Phys. Lett. 54 2651 Proceedings from the First internationai Conference on NC-AFM Appl. Surf. Sc/. 140 243... [Pg.1725]

Perez R, Payne M C, Stich i and Terakura K 1997 Roie of covaient tip-surface interactions in noncontact atomic force microscopy on reactive surfaces Phys. Rev. Lett. 78 678... [Pg.1725]

Zong Q, inniss D, K]oiier K and Eiings V B 1993 Fractured poiymer/siiica fiber surface studied by tapping mode atomic force microscopy Surf. Sc/. Lett. 290 L688... [Pg.1725]

Flansma P K ef a/1994 Tapping mode atomic force microscopy in iiquids Appl. Phys. Lett. 64 1738... [Pg.1725]

Miyatani T, Florii M, Rosa A, Fu]ihira M and Marti O 1997 Mapping of electric double-layer force between tip and sample surfaces in water with pulsed-force-mode atomic force microscopy Appl. Phys. Lett. 71 2632... [Pg.1725]

Erlandsson R, Olsson L and Martensson P 1996 Inequivalent atoms and imaging mechanisms in AC-mode atomic force microscopy of Si(111)7 7 Phys. Rev. B 54 8309... [Pg.1725]

Nakagiri N, Suzuki M, Okiguchi Kand Sugimura FI 1997 Site discrimination of adatoms in Si(111)-7 7 by noncontact atomic force microscopy Surf. Sc/. 375 L329... [Pg.1725]

Fukui K, Onishi H and Iwasawa Y 1997 Atom-resolved image of the 7102(110) surface by noncontact atomic force microscopy Phys. Rev. Lett. 79 4202... [Pg.1726]

Raza H, Pang C L, Haycock S A and Thornton G 1999 Non-contact atomic force microscopy imaging of 7102(100) surfaces Appl. Surf. Sc/. 140 271... [Pg.1726]

Hegenbart G and Mussig Th 1992 Atomic force microscopy studies of atomic structures on AgBr(111) surfaces Surf. Sc/. Lett. 275 L655... [Pg.1726]

Roark S E and Rowlen K L 1993 Atomic force microscopy of thin Ag films. Relationship between morphology and optical properties Chem. Phys. Lett. 212 50... [Pg.1726]

Overney R, Howald L, Frommer J, Meyer E, Brodbeck D and Guntherodt H 1992 Molecular surface structure of organic crystals observed by atomic force microscopy Ultramicroscopy 42-A4 983... [Pg.1726]

Bourdieu L, Ronsin O and Chatenay D 1993 Molecular positional order in Langmuir-Blodgett films by atomic force microscopy Science 259 798... [Pg.1726]

Liu G-Y and Salmeron M B 1994 Reversible displacements of chemisorbed n-alkanethiol molecules on Au(111) surface an atomic force microscopy study Langmuir 10 367... [Pg.1726]

Annis B K, Noid D W, Sumpter B G, Reffner J R and Wunderlich B 1992 Application of atomic force microscopy (AFM) to a block copolymer and an extended chain polyethylene Makromol. Chem., Rapid. Commun. 13 169 Annis B K, Schwark D W, Reffner J R, Thomas E L and Wunderlich B 1992 Determination of surface morphology of diblock copolymers of styrene and butadiene by atomic force microscopy Makromol. Chem. 193 2589... [Pg.1727]

Snetivy D and Vancso G J 1994 Atomic force microscopy of polymer crystals 7. Chain packing, disorder and imaging of methyl groups in oriented isotactic polypropylene Po/yme/ 35 461... [Pg.1727]

Ikai A, Yoshimura K, Arisaka F, Ritani A and Imai K 1993 Atomic force microscopy of bacteriophage T4 and its tube-baseplate complex FEBS Lett. 326 39... [Pg.1727]

Thundat T, Warmack R J, Allison D P, Bottomley L A, Lourenco A J and Ferrell T L 1992 Atomic force microscopy of deoxyribonucleic acid strands adsorbed on mica the effect of humidity on apparent width and image contrast J. Vac. Sol. Technol. A 10 630... [Pg.1727]

Hansma H G, Sinsheimer R L, Li M-Q and Hansma P K 1992 Atomic force microscopy of single- and double-stranded DMA Nucleic Acids Res. 20 3585... [Pg.1727]

Hansma H G, Sinsheimer R L, Groppe J, Bruice T C, Elings V, Gurley G, Bezanilla M, Mastrangelo I A, Hough P V C and Hansma P K 1993 Recent advances in atomic force microscopy of DMA Scanning 15 296... [Pg.1727]

Shao Z and Yang J 1995 Progress in high-resolution atomic-force microscopy in biology Qt Rev. Biophys. 28 195 Shao Z, Mou J, Cza]kowsky D M, Yang J and Yuan J 1996 Biological atomic force microscopy what is achieved and... [Pg.1727]

Lai R and John S A 1994 Biological applications of atomic-force microscopy Am. J. Physiol. 266 Cl... [Pg.1728]

Shao Z F, Yang J and Somlyo A P 1995 Biological atomic force microscopy from microns to nanometers and beyond... [Pg.1728]

Muller D J, Baumeister W and Engel A 1996 Conformational change of the hexagonally packed intermediate layer of Deinococcus radiodurans monitored by atomic force microscopy J. Bactehol. 178 3025... [Pg.1728]

See other pages where Atom Force Microscopy is mentioned: [Pg.182]    [Pg.237]    [Pg.395]    [Pg.559]    [Pg.688]    [Pg.1623]    [Pg.1640]    [Pg.1725]    [Pg.1726]    [Pg.1727]   


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Assay atomic force microscopy

Atomic Force Microscopy Study of Conductive Polymers

Atomic Force Microscopy Technique

Atomic Force Microscopy for the Characterization of Dendritic Polymers and Assemblies

Atomic Force Microscopy of Adsorbed Surfactant Micelles

Atomic force microscope microscopy

Atomic force microscopy

Atomic force microscopy

Atomic force microscopy (AFM imaging

Atomic force microscopy (AFM probe

Atomic force microscopy (AFM, also

Atomic force microscopy , amorphous

Atomic force microscopy , chromatin

Atomic force microscopy , composite

Atomic force microscopy , humic

Atomic force microscopy , label-free

Atomic force microscopy , liquid-solid

Atomic force microscopy , scanning

Atomic force microscopy -based

Atomic force microscopy . See

Atomic force microscopy AFM tips

Atomic force microscopy Digital Instruments Multimode

Atomic force microscopy INDEX

Atomic force microscopy Langmuir-Blodgett films

Atomic force microscopy Langmuir-Blodgett techniques

Atomic force microscopy University

Atomic force microscopy Young moduli

Atomic force microscopy adhesion

Atomic force microscopy adhesion studies

Atomic force microscopy advantage

Atomic force microscopy analysis

Atomic force microscopy applications

Atomic force microscopy applications in biology

Atomic force microscopy at rigid interfaces

Atomic force microscopy barriers

Atomic force microscopy basic principles

Atomic force microscopy biomolecular forces

Atomic force microscopy cantilever oscillation

Atomic force microscopy cantilevers

Atomic force microscopy carrageenans

Atomic force microscopy characteristics

Atomic force microscopy chemical sensitivity

Atomic force microscopy clays

Atomic force microscopy colloid systems

Atomic force microscopy colloidal probe

Atomic force microscopy commercial tips

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Atomic force microscopy contact mode

Atomic force microscopy contact scanning mode

Atomic force microscopy copolyester

Atomic force microscopy copolymers

Atomic force microscopy dendrimer molecules

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Atomic force microscopy description

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Atomic force microscopy dispersions

Atomic force microscopy double tipping

Atomic force microscopy dynamic processes

Atomic force microscopy elasticity determination

Atomic force microscopy electric double layer

Atomic force microscopy electrochemical applications

Atomic force microscopy fabrication method

Atomic force microscopy features

Atomic force microscopy fibril structure

Atomic force microscopy fillers

Atomic force microscopy film patterns

Atomic force microscopy food structure

Atomic force microscopy graphite surface

Atomic force microscopy high-resolution

Atomic force microscopy hydrolysis

Atomic force microscopy image quality

Atomic force microscopy images

Atomic force microscopy imaging

Atomic force microscopy imaging modes

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Atomic force microscopy intermittent-contact mode

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Atomic force microscopy local mechanical properties probe

Atomic force microscopy macromolecules

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Atomic force microscopy mechanism

Atomic force microscopy membrane potentials

Atomic force microscopy microphase separation

Atomic force microscopy molecular assemblies

Atomic force microscopy molecular structure

Atomic force microscopy molecule types

Atomic force microscopy morphology

Atomic force microscopy nanofabrication

Atomic force microscopy nanofibers

Atomic force microscopy nanoindentation

Atomic force microscopy nanoparticles

Atomic force microscopy nanorheology

Atomic force microscopy nanostructure size

Atomic force microscopy nanotube characterization

Atomic force microscopy natural rubber

Atomic force microscopy noncontact mode

Atomic force microscopy noncontact techniques

Atomic force microscopy operating modes

Atomic force microscopy operation, modes

Atomic force microscopy optical absorption spectroscopy

Atomic force microscopy optical detection mechanism

Atomic force microscopy origins

Atomic force microscopy oscillating cantilever imaging modes

Atomic force microscopy overview

Atomic force microscopy paper

Atomic force microscopy parameters

Atomic force microscopy phase transition

Atomic force microscopy phase-imaging

Atomic force microscopy phospholipids

Atomic force microscopy physical chemistry

Atomic force microscopy piezoelectric scanners

Atomic force microscopy plasmon

Atomic force microscopy polydispersivity

Atomic force microscopy polymer films

Atomic force microscopy polymers

Atomic force microscopy polyurethanes

Atomic force microscopy pretreatment

Atomic force microscopy principles

Atomic force microscopy properties

Atomic force microscopy regions

Atomic force microscopy resolution

Atomic force microscopy resonating mode

Atomic force microscopy rheological properties

Atomic force microscopy roughness

Atomic force microscopy sample preparation

Atomic force microscopy sample roughness

Atomic force microscopy sample stage

Atomic force microscopy scanning modes

Atomic force microscopy scanning probe instrument

Atomic force microscopy scanning tunnel microscopes

Atomic force microscopy schematic

Atomic force microscopy section analysis

Atomic force microscopy shrinkage

Atomic force microscopy single-molecule studies

Atomic force microscopy solution

Atomic force microscopy spectroscopy

Atomic force microscopy structural information from

Atomic force microscopy surface defects

Atomic force microscopy surface forces

Atomic force microscopy surface measurements

Atomic force microscopy surface roughness

Atomic force microscopy surfactants/proteins

Atomic force microscopy tapping mode

Atomic force microscopy temperature variation

Atomic force microscopy thermoplastic elastomers

Atomic force microscopy thin polymer film preparation

Atomic force microscopy thin-liquid films

Atomic force microscopy tip

Atomic force microscopy topographic

Atomic force microscopy topographical

Atomic force microscopy topographical images

Atomic force microscopy triblock copolymer images

Atomic force microscopy vibrating

Atomic force microscopy vibration scanning mode

Atomic force microscopy work-function difference

Atomic force microscopy, AFM

Atomic force microscopy, biomembrane

Atomic force microscopy, crystal growth

Atomic force microscopy, supramolecular

Atomic force microscopy, supramolecular structures

Atomic lateral force microscopy

Bacterial atomic force microscopy studies

Binning, atomic force microscopy

Block atomic force microscopy

Carbohydrate atomic force microscopy

Characterisation techniques atomic force microscopy

Characterization techniques atomic force microscopy

Conducting atomic force microscopy

Conducting-probe Atomic Force Microscopy

Conductive atomic force microscopy

Conductive atomic force microscopy C-AFM)

Crystallization atomic force microscopy

Current-sensing atomic force microscopy

Deformable interfaces, atomic force microscopy

Dendritic structures atomic force microscopy

Developments in Atomic Force Microscopy - High Speed AFM

Diffraction atomic force microscopy

Droplets atomic force microscopy measurement

Dynamic atomic force microscopy

Electrochemical atomic force microscopy

Electrochemical atomic force microscopy EC-AFM)

Electrochemical atomic force microscopy ECAFM)

Electrolytes atomic force microscopy measurement

Experimental techniques atomic force microscopy

Films, atomic force microscopy

Fractal atomic force microscopy

Grains atomic force microscopy

Imaging Membranes Using Atomic Force Microscopy

Imaging Polymer Morphology using Atomic Force Microscopy

In situ atomic force microscopy

Introduction atomic force microscopy

Laboratory atomic force microscopy

Linear region, atomic force microscopy

Metrology atomic force microscopy

Microscopic studies atomic force microscopy

Microscopic techniques atomic force microscopy

Microstructure studies atomic force microscopy

Monolayer atomic force microscopy

Nanofiber atomic force microscopy technique

Nanoparticle atomic force microscopy

Nanostructured materials atomic force microscopy

Non-contact atomic force microscopy

Non-contact atomic force microscopy NC-AFM)

Noncontact atomic force microscopy

Noncontact atomic force microscopy NC-AFM)

Nucleic acids atomic force microscopy

Nucleosome atomic force microscopy

PART IV. Atomic Force Microscopy

Particle clustering atomic force microscopy

Pectin atomic force microscopy

Phase separation atomic force microscopy

Polymer brushes atomic force microscopy

Polysaccharides atomic force microscopy

Principles of atomic force microscopy (AFM)

Probe atomic force microscopy

Probing using atomic force microscopy

Protein adsorption atomic force microscopy

Proteins atomic force microscopy

Recording atomic force microscopy

Recording atomic force microscopy images

Scanning probe techniques atomic force microscopy

Screening methods atomic force microscopy

Self-assembled amphiphiles atomic force microscopy

Semiconducting atomic force microscopy

Surface morphology, atomic force microscopy

Surfaces, studies atomic force microscopy

Surfactants atomic force microscopy measurement

Tapping mode atomic force microscopy TMAFM)

Tapping mode atomic force microscopy phase images

TappingMode™ atomic force microscopy

Testing methods atomic force microscopy

The New Science of Atomic Force Microscopy (AFM)

Thin film growth atomic force microscopy

Thin films atomic force microscopy

Thin, atomic force microscopy

Three-dimensional atomic force microscopy

Three-dimensional atomic force microscopy image

Tunneling atomic force microscopy

Tunnelling atomic force microscopy

Use of atomic force microscopy

Use of atomic force microscopy (AFM)

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