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The Bruker Inspire system enables new measurements of nanoscale chemistry and properties. Inspire extends Bruker’s proprietary PeakForce Tapping technology to nanoscale imaging of infrared absorption and reflection. This webinar focuses on the latest technology advances and expanding applications range addressed by this system, from nanoscale
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Kelvin probe force microscopy (KPFM, also known as surface potential microscopy) measures the work function, or electric potential, of materials or charges on the nanometer length scale. Despite much effort, KPFM has suffered from its inability to obtain consistent measurements of absolute work-functions in ambient conditions. Contamination, oxidation
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Survey, Screening, Dynamics: High-Speed AFM Imaging with Bruker's Dimension FastScan AFM webinar being held on Wednesday, 29 June 2011 at 4pm UK, 5pm CET, 11am EDT Click here to register >>> Outline: AFM has long been somewhat constrained to applications where its unique information and flexibility outweigh its limited imaging bandwidth
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Background: Height PeakForce Tapping. Foreground: Height Regular Tapping. Atomic Force Microscopy Webinar: ScanAsyst and PeakForce Tapping Overview PeakForce Tapping™ and ScanAsyst™ are two exciting new products recently released by Bruker. They are AFM imaging modes that will change the way you think about atomic force microscopy. While
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Register Today! - ScanAsyst and PeakForce Tapping Webinar OVERVIEW PeakForce Tapping™ and ScanAsyst™ are two exciting new products recently released by Bruker. They are AFM imaging modes that will change the way you think about atomic force microscopy. While PeakForce Tapping adds a low interaction, direct force control imaging mode to the
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Webinar Content 26. January 2011 High Resolution Imaging with the BioScope Catalyst AFM provides many advantages for high resolution studies of single biomolecules. With a high signal to noise ratio, the elimination of the need for coating, staining, or crystallization of a sample, and the ability to operate in fluid, AFM facilitates the study of biomolecules
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Hello, Before we order new tips, I try to decide which cantilever-tip would be the more efficient to deduce the topography of my surface at dry and liquid conditions. My surface is a polymeric film Polybutadiene-Polyethylene oxide. Polymer chains conformation is expected to be brush or mushroom like and the chains be assembled in micelles. In that architecture
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JUST ADDED! - A COMBINED AFM AND OPTICAL WEBINAR FOR SOLAR The Need for 3D Surface Characterization in PV Solar Cell Manufacturing OVERVIEW The solar energy industry has experienced dynamic growth over the last several years, due in part to factors such as high oil prices, government energy initiatives, and a growing worldwide awareness of the potential
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AFM Webinar Series: Atomic Force Microscopy: Characterizing Biomaterials at the Nanoscale OVERVIEW All events that occur in determining the biocompatibility of a biomaterial are based on molecular-scale interactions. Understanding how the properties of a biomaterial can influence these interactions has important implications, such as ensuring the successful
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A Special, Cross-Platform, 3D Optical Surface Profilometry and Atomic Force Microscopy Webinar: 3D Optical Surface Profilometry and Atomic Force Microscopy for Ophthalmic Manufacturing OVERVIEW In the contact lens and intra-ocular lens (IOL) markets, the increasing demand from an aging population, the rapid material innovation and development, and a