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AFM Auto-Focus  Collage of Raman Intensity & AFM Topography of a Diamond Film  Pump Probe Ilumination Collection  Topographic Images of the Fisher's Sample  Antenna Probes  AFM/Raman of Cardiac Stent  AFM/Raman Collage of Name Card  Near Membrane and Cytoplasm Calcium Neuronal Imaging  Chromosome Nanomanipulation and Imaging  Nanonics Systems Can Use Any Probe  High Resolution Near-field Optical Microscopy Imaging in Transmission Mode  restored pages  Chris Mulcahy  Antenna Probes  New System Gives a Four-Way Point of View  Hitesh Mamgain  Modified PMMA - Topographic and Phase Measurements  Distributors Login  Scott Barton  Spagus  Galleries  TERS & ANSOM WITH NANONICS MULTIVIEW SYSTEMS  AFM/Thermal in Non-Contact Mode  Stressed Silicon  Raman Imaging of Germanium Quantum Dots  MultiProbe NanoIndentation & AFM Profiling with On-line Raman  AFM with On-Line Raman of Strained Silicon  Magneto Optic Disc  AFM, NSOM and Capacitance  NanoIndentation and Raman Characterization  MultiView 4000 System Wins Semiconductor International Award  MultiView 4000 system wins the R&D 100 Awards program  Selective Protein Deposition  Zoom on Nano-Array  Zoom-in with AFM on PBG Structure  David Lewis  Optometronic 4000TM  Piotr Krasinski  Toni Beckman  test taha  New Product Announcement: Nanonics Nano3D Distortion Free, Near-field/Far-field Beam Profiler  Rob Grant  Electrophoretic lithography via electrical pulses for accurate and controlled chemical deposition  Dhananjay Kulkarni  Independent Tip and Sample control  Tip Enhanced Raman Spectroscopy  Edward Cha  Scott Barton  Dhananjay Kulkarni  Stelian Nicula  Lefteris Klothakis  No Topographic Artifacts  The Nanonics Hydra - The Next Evolution in BioAFM  Nanonics introduces The HydraTM, A Revolutionary Bio Scanned Probe Microscope  Gold Nanoparticle TERS Probe  MicroRaman Mapping of sSi Thin Surface Film  Nanonics Hydra- BioSPM Microscope  A Complex of Innovations  AFM Bio-Imaging in Liquids  New Heights of Spectral Bio-Imaging 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Jet Printing of BSA  Write and Read Two-Probe Nanolithography  SPM Theater  Steve Barnett  Integrated with all optical microscopes upright, inverted and dual microscopes  A transparent probe with no Raman background  Ultimate in feedback without any optical interference  Ultralow working distance from above  Specialized scanning modes  Optimized TERS with single gold nanoparticle probes & tip controlled difference Raman  Unique 3D Flat Scanning technology  • Transparent probes with exposed tips & no Raman background  • Optically friendly & completely non-interfering  • Elongated probe tip excellent for profiling  • Uniquely capable with exposed tip for side wall imaging  • A NanoToolKitTM  All Modes of SPM/NSOM/Raman/TERS  Z sample scanning for the ultimate in autofocus  Off-Axis Enhancement  Meet us at MicroScience 2010 this Summer  Improved confocal Raman resolution  High Resolution Raman Mapping with Z-feedback  AFM/Raman of Strained Si Transistor  Large Z-Range Imaging of Razor Blade  Large Z-Range Imaging of Razor Blade  Online AFM/Raman of Diamond Coated Film  Fountain Pen Nanolithography for Liquid and Gas Chemical Delivery  AFM Imaging of Textile Fibers  AFM/Raman of Strained Si Transistor  AFM/Raman of Strained Si Transistor  MultiProbe NanoIndentation & AFM Profiling with On-line Raman    AFM, Raman, TERS      BSA Protein Writing on Si Surface  FPN Deposition of Different Inks on Variety of Samples  short form  Area of Interest  AFM  AFM/Raman  MultiProbe AFM  NSOM  Other  E-mail  Name  AFM Raman of CNT Nanowire on Silicon  AFM Raman of CNT Nanowire on Silicon  Online AFM/Raman of an Si/SiO2 Grid  Online AFM/Raman of an Si/SiO2 Grid  Online AFM/Raman of an Si/SiO2 Grid  AFM/Raman of Si/SiO2 Grid  AFM/Raman of Si/SiO2 Grid  AFM/Raman of Si/SiO2 Grid  Hot Off the Press! See Our Latest Images  Congratulations to Nanonics' Customer Prof. Stefan Maier  Nanonics Earns Microscopy Today's Innovation Award  Nanonics and FEI Join Forces to Explore Hybrid AFM/DualBeam System  Optometronic 4000  Nanonics MV2000TM Research: 5th Most Downloaded Paper in APL  NSOM / SNOM, sSNOM  NSOM Transmission Mode  High Resolution NSOM of Au Grid  NSOM SNOM sSNOM  Movie Gallery  MultiProbe SPM  Nano Lithography  Materials  AFM Images  AFM Raman of Diamond Coated Film  Fibroblas Cells  Mohit Gautam  AFM Raman of an Si SiO2 Grid  Glass probes  AFM and Raman of Cardiac Stent  AFM Raman of Si SiO2  AFM Raman of Si Transistor  3D flat scanner  Diamond with Raman AFM On-Line Auto-Focus  AFM Raman of Name Card  AFM Raman of a Polymer Blend PDMS Chloroform  Raman of Polymer Quantum Dots  AFM Raman of MEMs device  AFM Imaging Double Strand Lambda DNA  Bacteriorhodopsin Containing Purple Membranes  collagen imaging  Fibroblast Cells imaging  GProtein  Human Fibroblasts imaging  PMMA - Topographic and Phase Measurements  Monkey's Kidney  Murine Stem Cell imaging  Membrane and Cytoplasm Calcium Neuronal Imaging   BSA Protien Writing  BSA Protein Nanoarray Writing  Yeast Cells Fluorescence  Nanonics  Publications  Transistor NSOM Imaging  Nanospec Research Project Goes Worldwide  Block Co-polymer Imaging  Cathodoluminescence  Microlens  Evanescent fields in Resonator Structures images  Guided light in PBG imaging  High Current NSOM & AFM  NSOM Nanoarray Plasmons image  NSOM of Double Slit Plasmons  NSOM Light Distribution  Topographic/Near-field of an Optical Fiber  Waveguide Structure  AFM/NSOM and Capacitance  SRAM electrical image  FIB Trench  Silicon NanoIndentation  NSOM Reflection of SRAM  Imaging of PN Junction  Silicon Semiconductor image  Stressed Silicon image  TFT  Quantum Laser Thermal Image  SRAM Topographic Image  AFM Raman of CNT  Gold Line using NanoFountain Pen  Protein Nanoprinting  Protein Writing on Si Surface  Chlorine Gas Nanolithography  NanoEtching using Fountain Pen  GProtein  Nano Ink Jet Printing  Fountain Pen Printing  Protein Nanoarray  TiO2 Nanolithography  Two-Probe Nanolithography  High Resolution NSOM Imaging in Transmission Mode  Fibroblast Cells Imaging  Human Fibroblast Imaging  Murine Stem Cell Imageing  Chromosome Nanomanipulation  High Resolution NSOM Imaging of Au Grid  PEO Spherulite Imaging  30nm Gold Balls Imaging  High Resolution NSOM Imaging in Reflection mode  NSOM/AFM Quantum Dot Imaging  Optoelectronic Device Image  Cache Memory Image  AFM, NSOM and Capicatance SRAM Image  Magneto Optic Disc Image  TFT in Liquid Crystal Image  AFM and NSOM of A Multi Mode Fibre  Waveguide Structure Imaging  Evanescent Fields in Resonator Structures  NSOM Imaging of Double Slit Plasmons  NanoArray Plasmons Imaging  Guided Light in a PBG Crystal  NSOM Light Distribution  High Current 50 mA NSOM & AFM  NSOM Imaging of the Edge of a Waveguide  Steve Rapp  Microlens Imaging  20 micron PMMA Microspheres Imaging  Composite Polymer Imaging  Molecular Pentacene Imaging  Polymer Surface Imaging  Polymer Quantum Dots - Raman Imaging  AFM Image of Tip  AFM Imaging of TMP  AFM, NSOM and Capicatance  Almunia Template Image  Carbon Nanotube Images  Hydra Bio-SPM – A New Generation of Bio AFM  Carbon Nanotubes  Deep Trench Imaging  FIB Etched Trench Imaging  FIsher's sample Topographic Imaging  HOPG Atomic Steps  Nanonics Microscopes Can Use Any Probe  Quantum Dots Images  SEM and AFM Integration Imaging  Textile AFM Imaging  Topographic Imaging of Silver  Piotr Krasinski  Z-Range Imaging of Razor Blade  Porous Alumina  NSOM Cathodoluminescence  Surface Plasmon Propagation  Molecular Pentacene  Dual Probe Optical Measurements  Nano Pump Probe Optical Measurements  Electrical  Multiprobe AFM Raman  Apertureless Multiprobe  Multiprobe Chemical Writing  Thermal  Multiprobe Thermoconductivity  AFM of Insulin  Nearfield Excitation & Collection  Multiple Imaging Modes  Near-Field Far-field Smart Z Profiler  ICON/ACMM, Feb. 5-9, 2012, Perth, Australia  Combined AFM/SEM/FIB  Live Demonstration of TERS at Workshop  Nanonics' Hydra and Optometronic 4000 Systems Installed Recently in Southampton University  Nanonics' Systems Now Available with Akiyama-Probe  SPIE-Photonics West, Jan. 24-26, 2012, San Francisco, CA  AFM/Raman/TERS Workshop in Spain Sep, 20th and 22nd.  Resonant Waveguide  Surface Plasmons Imaging  Transistor NSOM Imaging  Neuroblastoma AFM Imaging  Chondrocytes AFM Imaging in Liquid Cell  Polymer Blend  MFM Imaging of Co NanoParticles  MultiView AFM-Raman Series, The Video: Now On YouTube  Plasmonic Vortex Lens  Surface Plasmon Vortices  Application Notes  Ben-Gurion Students Get the Full Tour  NSOM SNOM sSNOM  1  Prof. Aaron Lewis - CEO of Nanonics - Featured on AzoNano.com  Free Optical Axis for Reflection NSOM  MultiProbe for Nearfield Coupling and Collection  NanoPumpProbe  MultiProbe for Surface Plasmon Excitation and Collection  MultiProbe NanoLithography  Neuroblastoma AFM Imaging in Liquid  Nanonics SPM MultiView Series  Materials  NanoLithography  AFM Scan in Liquid Live Media  Bacteria Attacking AFM Tip  Four SPM Probe Positioning  Four SPM Probe Imaging  Our Path into TERS: See Prof Lewis  Institution  Select Country  India  Israel  US  UK  Germany  China  France  Canada  S. 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Shaw and his colleagues on receiving the Applied Spectroscopy William F. Meggers Award at FACSS Conference in Reno, Nevada 2011  CLEO, May 8-10, 2012, San Jose, CA  E-MRS, May 15-17, 2012, Strasbourg, France  NT12, June 25-28, 2012, Brisbane, Australia  ICN+T 2012, July 23-27, 2012, Paris, France  NT12, June 25-28, 2012, Brisbane, Australia  Piezo Force Microscopy Imaging  test page  The Nanonics AFM/SPM/NSOM 2000 Confocal Microscope TM Found 683 pages: Home ... More info SPM Probes and Nanotools         ... More info Raman     ... More info Silver Particles ... More info Products ... More info DI Interface Unit ... More info Academia™ d are suggestions for experiments for teaching AFM with the open architecture that allows for full optical view of all AFM operations.   is an affordable AFM system with all the functionality of a research AFM microscope which can function effectively for teaching laboratories. ... More info Carbon Nanotubes                           ... More info Drafts ... More info AFM Systems n the stage of an upright, inverted or dual microscope Nanochemical gas lithography with cantilevered nanopipette probes   Nanonics provides a range of flexible and open architecture AFM systems     ... More info MultiView 1000™ ntilevered optical fiber probes, this instrument can simply and transparently be combined with any inverted, upright, or dual optical microscope. scanner technology and incorporating sophisticated cantilevered optical fiber probes, this instrument can simply and transparently be combine ... More info Fibroblast Cells Imaging w-contrast biological samples. The free optical axes also allows fluorescence and Raman imaging to be achieved with ease. AFM/NSOM Imaging of Fibroblast Cells in Liquid Cell AFM  topographic imaging with simultaneous NSOM ... More info MultiView 2000™ ee versatile transparent integration leads to unique combinations without complexity.  Nanonics pioneered combinations with: General Description can achieve integration with AFM/SPM, without compromising optical performance. Nanonics has designed scan ... More info Academia™     ... More info Academia™ igh quality research grade AFM. shows that reliability and quality can be affordable for today's market.         users. It is the small dimensions of our scanner combined with our high signal to no ... More info Academia™ ptics Binocular microscopewith boom stand Control Nanonics AFM controller User friendly Lab VIEW based AFM software Specification Contact, non-contact, intermittent-contact Optical beam deflection Scanning/Sample 70micron XY,5micr ... More info Deep Trench Imaging of Razor Blades re just a few examples of Nanonics' inverted deep trench images:             AFM Imaging of a razor blade samplem ) The razor blade image represents an inverse of a deep trench. ... More info Molecular Pentacene ... More info Block Copolymer Imaging ... More info Patch Clamping & Ion Conductance ment with ionic conductance.  The conductance measurements done so far with the system portend great success in this area.    The ability to perform AFM controlled conductance microscopy with Nanonics' extensive exp ... More info Fibroblast Cells p;   30 x 30 microns              8 x 8 microns     Even though the cantilevered optical fiber for  NSOM has a slightly large outer diameter, AFM with this optically sensitive pr ... More info CryoView 2000™ Deliver a chemical via the nanopipette-AFM tip to your sample surface Raman Microscopy Fully integrated with RenishawinVia Series microscope The First Low Temperature System with optical access from above and below the sample Simultaneous AFM and NSOM at Temperatures down to 1 ... More info Nanonics STM Module ow Current Module Tunnel curents from 50 pA to 10 nA Fiber input Illumination of the sample or collection of light from the sample   Scanning Tunneling Microscopy (STM) measures the topography of surface electronic states using a tunneling current that is dependent on the separation ... More info EnviroView™ Flexibe integration of the   fully integrated inside environmental chamber with free optical axis   Transparent integration with any optical Complete freedom of optical microscope     ... More info EnviroView™ - High Vacuum Two Probe system fully integrated inside environmental chamber on a dual optical microscope with complete free optical axis       Transparent integration with any optical microscope, including dual microscopes Comple ... More info Chemical Writing August 2003 edition of Nature Materials. The Nanofountain Pen was reviewed in the Material Update section.           Left: 40 x 40 micron Topgraphy of BSA Protein l ... More info Combined SEM/FIB/AFM nbsp; 5 x 5 micron X-Z scan of the sidewall of the deep trench (Y-range 150 nm)   New Page  High resolution Cathodoluminescence measurement SEM image of a Na ... More info Nanonics Confocal Microscope             ... More info 3D Flatscanner Central opening 24 mm     The ultra thin package and open optical axis permits the scanner to be incorporated into systems where conventional scan stages are too bulky. Thi ... More info Dual Microscope Nanonics dual microscope system in its closed configuration. View the 3-D model of the Nanonics dual microscope system in its open configuration.     View the 3-D model of the Nanonics dual microscope system in its closed configuration. View the 3-D model o ... More info Liquid Cell Environmental Chamber Control the measurement environment (humidity, gas composition, vacuum)       Bath Tip mount The Liquid Cell consists of a bath, in w ... More info APD Controller ... More info Double APD Detection System     ... More info Q Control Scanning of Highly Sensitive surface structures. Lower forces on sample surfaces Increased resolution in topographical measurements Scanning of Highly Sensitive surface structures. Lower forces on sample surfaces Increased resolution in topographical measurements ... More info Optical Fiber NSOM Probes Constant 5-20 N/m Resonant Frequency (for non-contact) 80-390 kHz         Nanonics holds the exclusive right to produce cantilevered optical fiber probes. In this pio ... More info Apertureless NSOM Probes 5-20 N/m; <1N/m for roughened probes (for non-contact) 20-390 kHz (for roughened probes)         ... More info Active NSOM Probes Force Constant 1 -20 N/m Resonant Frequency 20-390 kHz   Experimental arrangement of external illumination NSOM mode for ion sensing. A cantilevered nanopi ... More info Hollow NSOM Imaging Probes stant (for Cantilevered) 5-20 N/m Resonant Frequency (for Cantilevered) 80-390 kHz   These probes are not recommended for general imaging applications because they can generat ... More info Optical Fiber AFM Probes 1000 µm Force Constant 1-20 N/m Resonant Frequency 20-390 kHz Cantilevered AFM Probe: note that the angle of the cantilever enables viewing the sample underneath the AFM tip ... More info Hard to Achieve Force Constants and Resonance Frequencies rce Constant from below 1N/m to over 10 N/m Resonant Frequency 20-390 kHz     For cutting edge AFM research, such as molecular imaging and dynamic force imaging, it is often critical to use probes with specific comb ... More info Deep Trench Probes µm Cantilever Length 300 µm - 1000 µm Force Constant from below 1N/m to 20 N/m Resonant Frequency 390 kHz   Tips with high aspect ratios can easily be manufactured using glass pulling techniques. AFM tips (incl ... More info AFM Raman the sample and far field signal is collected. The software substrates these two signals giving the difference signal.        Combined on-line pixel by pixel surface topography and chemical characterization via Raman spectroscopy at ultrahigh resolution. T ... More info Electrical Probes Resonant Frequency 80-390 kHz Conductive Coating Au (thickness ~20nm)   Electrical Probe Specifications Tip Diameter ... More info NanoFountainpens™ for Gas or Chemical Delivery available) Force Constant 3-20 N/m Resonant Frequency 20-390 kHz   40 x 40 micron topography of   Video of protein printing   Nano ... More info Gas and Liquid FountainPen NanoLithography ... More info Photonic Band Gap Materials d between two dark domains- seen emanating from the triangular region.   NSOM (collection mode) of guided light in a PBG material .   8 x8 μ AFM image of the boxed region on the lefthand image. 3 x3 μ AFM image of the boxed region in t ... More info Single Wire Nanopipette Probes Force Constant 5-20 N/m Resonant Frequency 20-390 kHz Nanonics produces a variety of glass insulated nanowires. New worlds of research have been opened up by these unique AFM sensors, which includ ... More info Electrochemical and SECM Probes 300- 1000 µm Force Constant 5-20 N/m Resonant Frequency 20-390 kHz Nanonics is the only provider today of Scanning Electrochemical Microscopy Probes (SECM) probes with normal force sensing capabilities. E ... More info Coaxial Probes / Shielded STM Probes e Constant 5-20 N/m Resonant Frequency 20-390 kHz   Cantilevered Coaxial Probe for sensitive STM measurements    SEM of the 7nm ... More info Thermocouple Probes 00 µm Force Constant 5-20 N/m Resonant Frequency 20-390 kHz   Thermocouple probes consist of a tapered wire running through a metal-coated, glass nanopipette. The external metal coating extends over ... More info Double-Wire Electrodes - 1000 µm Force Constant 5-20 N/m Resonant Frequency 390 kHz   Double-wire Electrode probe with two tapered wires running inside a nanopipette &nbs ... More info Complete & Affordable AFM Packages ... More info Australia ... More info Nanotweezers™ 300- 1000 µm Force Constant 5-20 N/m Resonant Frequency 390 kHz   Nanotweezers™ showing the length of the tweezer Nanotweezers™ shown with wires at the same potent ... More info USA ... More info Double-Wire Thermoresistive Probes Force Constant 5-20 N/m Resonant Frequency 20 - 150 kHz       Nanonics is the only supplier of thermoresistive (thermoconductivity) probes that provide intermittent contact imaging of surfaces. These ... More info Lensed Fibers ≤80° * Other, non-standard specifications available upon customer request Nanonics provides unique Lens fiber probes for variety of near-field and far-field optical protocols in imaging ... More info Other Fiber Components Gratings can be inscribed with various customer-defined protocols. Optical tests of the inscribed gratings can be provided. Fiber Bonding   Coatings with various combinations of metals (Ni, Au, Cr) Coating length, thickness, and positioning according to custom ... More info Nano3D Beam Profiler tAccuracyBeam Waist<1% even for sources with >20 degreedivergence;< FONT>Beam Position & Size100 nm accuracy< FONT><100 nm A Breakthrough in Profiling Technology The Nanonics 3D Near-field beam profiler brings to the market, for the first time, a profiler able to produce a ... More info Free Space Interconnect Light Wave Measurement collages of multiple images.Refractive index profiling deconvolution software integration of confocal channel with near-field/atomic force constraints Nanometrically aligned active feedback with super-resolution imaging Multiple Waveguides: 100 or more Multi-channel Waveguides ... More info Lens Fiber Characterization systems that are an integral part of the wavelength division multiplexing revolution today and will be a critical part of these systems tomorrow. optics is a new tool, which bridges the worlds of atomic force and far-field optical microscopy, to provide unique information on the characteristi ... More info Refractive Index Profiling ware.Real time image display, image acquisition (up to 8 channels) and analysis, 3D rendering, & ability to provide collages of multiple images. In the world of passive component photonic devices, waveguides stand in the center of a whole variety of components, from optical fibers to optical sw ... More info Active Device Applications ) Bourzeix S., Moison J. M., Mignard F., Barthe F., Boccara A. C., Licoppe C., Mersali B., Allovon M. and Bruno A., Appl. Phys. Lett. 73, 1035 (1998) The central role of photonics in the new millennium, which has often been predicted, is now becoming a reality. The Wavelength Division Multiplexing ( ... More info Thermal/Optical Profiling . . ... More info AFM add-on for SEM and FIB ™ is able to scan in the X-Z plane to image features on the side of a deep trench 5 x 5 micron X-Z scan   Simultaneous and Independent SPM/SEM Imaging  Transparent integration with any SEM or FIB with a sufficiently large sample chamber No ... More info Literature ... More info Learn NSOM ... More info A Brief History and Simple Description of NSOM/SNOM Technology roperties, which can change the optical properties Fluorescent molecules Molecules excited through a Raman shift, SHG, or other effects   where d = the distance between the two objects, λθ = the angle through which the light is collected. According to this equation, the be ... More info A comparison of existing NSOM/SNOM technologies ate-of-the-art technological innovations that are based on cutting edge research in near-field optics and in process development and control.   NSOM ProbesSince the tip is a crucial component in any near-field scanning probe optical microscope, we will begin with a discussion of the Nanonics n ... More info What can you do with a Nanonics NSOM/AFM system? ng Single molecules, nanocrystals and thin films with and without imposed forces, electrical fields, etc. Cellular fluorescence imaging   Generate carriers locally using optical capabilities of NSOM without need for electrical connections. Light emission from working devices. Kel ... More info Company ... More info Company Profile lication in the major literature is fitting testimony to the complete solution of SPM systems and scientific support that we provide.     Nanonics Imaging is premier innovator of AFM and NSOM systems in the SPM market. Since its inception in 1997 and throughout the ... More info Tip Enhanced Raman Spectroscopy or simultaneous functional electrical  measurements with sSi thin film chemical imaging.         For the first time, the worlds of scanned probe microscopy and Raman chemical imaging ha ... More info Life Sciences     ... More info NSOM Probes ... More info Awards Won illary X-ray concentrator Selected by R&D magazine as one of the 100 Most Technologically Significant new Products of the year   2002 1997 1996 1996 1993 Nanonics is proud to display here some of the awards it has won over ... More info Links nt Platforms Combined Raman Spectroscopy/AFM/NSOM Systems Superior, leading-edge negative-stiffness, cost-effective, vibration isolation. Telecommunications Test & Measurement Platforms Combined Raman Spectroscopy/AFM/NSOM Systems Superior, leading-edge negative-s ... More info Image Gallery ... More info Integrated Microscopy ... More info AFM, NSOM and Capicatance   Simultaneous Capacitance Image of the same region       The first simultaneous NSOM/Capacitance ever to be produced.      NSOM Image of the same region   ... More info 20 micron PMMA Microspheres   3D image allows even larger topographic alteration to be readily monitored. .     3D image allows even larger topographic alteration to be readily monitored. .   ... More info NSOM of the Edge of a Waveguide collected to produce images such as the one above.        This is the only SPM system capable of perpendicular nanometric align ... More info Internal Imaging of a Deep Trench ™ is able to scan in the X-Z plane to image features on the side of a deep trench 5 x 5 micron   make it possible to form images from the bottom of a deep trench of up to 1.5mm. ... More info Image of Standard Silicon AFM Tip ave high enough aspect ratios (10:1) and are narrow enough to image the structure of a standard Silicon Probe.   Image of standard Silicon tip measured by AFM in the intermittent contact mode of operation   These ... More info Nanolithography ... More info BSA Protein Nanoprinting Click to open application note on the uses of the nanofountain pen (331kB)             3D image         60 x 8 ... More info TiO2 Printing in the Material Update section.   Click to download application note on the uses of the nanofountain pen (331kB)        Only Nanonics can deliver chemicals or gas onto the sample on line, with no need to remove the tip from the sample. AFM topogr ... More info GProtein Printing Click to download application note on the uses of the nanofountain pen (331kB) G-Protein and GFP Protein Lines Deposition and Imaging of Printed G Protein ... More info Protein NanoDots sample. . The Nanofountain Pen was reviewed in the Material Update section.       4X4 micron Image of Protein dots printed with a Nanofountain Pen Only Nanonics can deliver chemicals or gas onto th ... More info Chlorine Gas Delivery Nanofountain Pen was reviewed in the Material Update section. Click to download application note on the uses of the nanofountain pen (331kB)  Nanofountain Pen reviewed by Nature Materials . The Nanofountain Pen was reviewed in the Material Update section. ... More info Life Sciences ... More info Raman-AFM of MEMs device information is being collected. system allows Raman spectra to be taken while an AFM tip is in contact with the sample.     system allows Raman spectra to be taken while an AFM tip is in contact with the sample.   ... More info Diamond Film Raman with AFM On-Line Auto-Focus s being collected.Only Nanonics combined Raman and AFM system allows Raman spectra to be taken while an AFM tip is in contact with the sample.   3-D Collage AFM Topography at 1525 cm-1 3-D Collage AFM Topography at 1334 cm-1 Note the differences in the ... More info Exhibitions Microscopy and Analysis Journal Upcoming Exhibitions:   Microscopy and Analysis Journal Upcoming Exhibitions:   ... More info Exhibitions ... More info CryoView 2000™ simultaneous NSOM, AFM, Confocal and Raman imaging, complementary techniques can be used to analyze samples at low temperatures and high vacuums. introduces the world of integrated microscopy to low temperature research. With simultaneous NSOM, AFM, Confocal and Raman imaging, complementary ... More info Chemical Sciences     ... More info Physics What What ... More info SEM/AFM Integration e of a deep trench   5 x 5 micron   SEM images of a Nanonics AFM Non-obscuring Probe   Probe in contact with a sample insi ... More info Materials and Surface Nanoscience ... More info Composite Polymer NSOM image of the same region      3D Image NSOM image of the same region      3D Image ... More info 0.5x0.5µ Carbon Nanotubes scan of the single walled carbon nanotube shown above in the zoomed region. Note the low noise levels (estimated at 0.05nm).   AFM images of a single walled carbon nanotube. The area highlighted in the image on the left was reimaged at higher resolution in t ... More info TFT in Liquid Crystal Display e.   3D Topographic image                   image   These images was produced using the MultiView 1000™ Microscope. ... More info Photonic Band Gaps a bright domain (Orange Triangular Region on bottom right) through a 7 micron deep gap that Develops between Two Dark Domains.       This shows a gap between domains 3 microns deep. Simultaneous Collection Mode NSOM image of the same region, the gap is illum ... More info Monkey Kidney hey were imaged at a more advanced stage in their growth. However, the fibers are fluorescent so they show up in the fluorescence NSOM optical image.   image  image The cell is visible in the AFM topography image but the fluorescent image shows mainly fibers. The f ... More info PEO Spherulite oscopy images along side transmission NSOM images   .            Transmission NSOM image Polarization shows the radial dependence of the birefringence     &n ... More info 30nm Gold Balls 1 x 1 micron AFM image Transmission NSOM image 1 x 1 micron AFM image Transmission NSOM image ... More info Alumina Template  800 x 800nm Phase AFM image  800 x 800nm Phase AFM image ... More info Zoom on Carbon Nanotube These images were obtained by the MultiView 400™ using an optical fiber AFM probe with a tip diameter of 20nm.    These images were obtained by the MultiView 400™ using an optical fiber AFM probe with a tip diameter of 20nm.  ... More info Topography of SRAM ows the structure underneath the silicon layer   device structure These Images were produced using the The MultiView 1000™. The simultaneous NSOM image obtained in reflection mode shows the structure underneath the silicon layer   de ... More info Simultaneous AFM/NSOM and Capacitance These images were obtained by the MultiView 1000™ Simultaneous Capacitance Image of the same region   The first simultaneous NSOM/Capacitance ever to be produced.   NSOM Image of the same region   ... More info Topography of SRAM rface topography with thermal conductivity or temperature. SEM of Dual-Wire thermoresistive probe showing fused junction       Image of the same region obtained in the     Only Nanonics Thermal Probes a ... More info Carbon Nanotubes 1.6 x 1.4 micron AFM Topography z-range 15nm   Linescan showing the 12nm cross-seciton of the nanotube       1.6 x 1.4 micron AFM Topography z-range 15nm   Linescan showing the 12nm cross-seciton of the nanotube     & ... More info Polymer Surface nules are 20 – 50 nm in diameter and 0.5 – 2 nm high.There seems to be no difference in granularity between the islands and the lower polymer surface. 3D image 1.5 x 1.5 micron AFM Image z-range: 12nm   0.55 x 0.55 micron AFM Ima ... More info Image of Standard Silicon AFM Tip ave high enough aspect ratios (10:1) and are narrow enough to image the structure of a standard Silicon Probe.   Image of standard Silicon tip measured by AFM in the intermittent contact mode of operation   These ... More info Optics, Photonics and Plasmonics ... More info TFT in Liquid Crystal Display These images was produced using the MultiView 1000™ Microscope.   3D Topographic image             image   These images was produced using the MultiView 1000™ Microscope.   3D Topographic image ... More info Yeast Cells (Fluorescence) robes intermittant contact mode. Other NSOM techniques using hollow probes are limited in their ability to image in the intermittant contact mode. Far-field optical images of yeast cells in a liquid cell    X5 optical image X10 optical image ... More info PEO Spherulite opy images along side transmission NSOM images   .            Transmission NSOM image Polarization shows the radial dependence of the birefringence     ... More info Magneto Optic Disc ion NSOM is possible because of the unique archetecture of the Nanonics MultiView system which leaves the optical axis free from above the sample.       20x20 micron Reflection NSOM images of the same region of a magneto optic disk illuminated with differ ... More info AFM, NSOM and Capicatance These images were obtained by the MultiView 1000™ Simultaneous Capacitance Image of the same region   The first simultaneous NSOM/Capacitance ever to be produced.   NSOM Image of the same region   ... More info Near-field Interference r probe.Phase Singularities are seen due to the Beating of the TM00 and TE00 ModesLine profiles taken at various locations of the scan     The Interference pattern between the Incident Laser Light and Collected Light in the Waveguiding Region of a cantilevered single mode optical fiber pr ... More info Reflection NSOM of SRAM e produced using the The MultiView 1000™ . This is the only system available today which can produce reflection NSOM in the intermittent contact mode. The simultaneous NSOM image obtained in reflection mode shows the structure underneath the silicon layer These Images were produ ... More info Semiconductors ... More info Thermal imaging of SRAM rface topography with thermal conductivity or temperature. SEM of Dual-Wire thermoresistive probe showing fused junction       Image of the same region obtained in the     Only Nanonics Thermal Probes a ... More info Protein Imaging he Nanofountain Pen was reviewed in the Material Update section. Click to download application note on the uses of the nanofountain pen (331kB)  3D image     60 x 80 micron optical image of the same region. Video of protein ... More info Silicon Semiconductor d. Only Nanonics combined Raman and AFM system allows Raman spectra to be taken while an AFM tip is in contact with the sample.   For this measurement the cantilevered glass AFM probe  was brought into contact with the sample using the MultiView 4 ... More info Thermal Imaging of V Grooved Quantum Laser rmal response time under 20us thermal resolution under 10 millidegrees and nanometric spacial resolution. .    The collection mode NSOM image clearly reveals the V-shaped evanescent field on either side of the Quantum Well Laser. Note that a ... More info Electrical Imaging of SRAM ractive index   All these images were produced using the The MultiView 1000™ Image produced by Electrical Resistance Imaging   NSOM is able to reveal clear structures due to differences in the refractive index   All these images we ... More info Thermal Imaging of Optical Fiber Thermal image of cleaved multimode fiber (IR light was coupled into the fiber) Thermal image of cleaved multimode fiber (IR light was coupled into the fiber) ... 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