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Leading AFM-RamanTechnology Aided by proprietary Bruker technology, atomic force microscopy has advanced past providing just nanoscale topographical data to the quantitative characterization of electrical, thermal, and mechanical information of sample surfaces. Similarly, Raman spectroscopy has emerged...
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Innovation with Integrity Enabling AFM Advancement April 2013 David Rossi Executive Vice President and General Manager Bruker's AFM Business Topographic map of graphene flake prepared on silicon dioxide, reveals expected 300pm graphene step between successive layers. In the discipline of Tip-Enhanced...
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Innovation with Integrity Bruker Fuels the Future of Graphene April 2013 AFM topography image showing wrinkles in graphene layers at area of interest. This modulus image shows fine structures with greater compliance seen as darker areas on the modulus map image. Atomic force microscopy has been part...
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Innovation with Integrity Proprietary High-Contrast Probe Tips on Innova-IRIS AFM Enable First Complete Commercial TERS Solution April 2013 The single biggest issue preventing further adoption of the powerful Tip-Enhanced Raman Spectroscopy (TERS) technique is the lack of available high-performance probes...
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Innovation with Integrity Seeing at the Nanoscale Is Coming to a Venue Near You April 2013 After over a decade of extremely popular once-a-year conferences, Seeing at the Nanoscale is expanding to multiple locations in 2013. The year-on-year growing participation, interest, and valued interactions were...
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Seeing at the Nanoscale 2013 with Nuance Don’t miss this opportunity to meet your peers, discover next-generation nanotechnology, and be the first to hear about the exciting trends and industry updates. This year’s conference features an incredible mix of visionaries—all ready to give...
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Today’s requirements on micro- and nanoscale characterization instrumentation go far beyond the capabilities of a single measurement method. The complimentary techniques of atomic force microscopy and Raman microscopy provide critical information on both the topography and the chemical composition...
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October 2011, Issue 03 Product Innovations - Industry Leaders are Talking Dimension FastScan The Dimension FastScan improves imaging speed without sacrificing nanoscale resolution, enabling users to work hundreds of times faster than is possible with other commercial AFM systems and delivering results...
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The Dimension FastScan ™ Atomic Force Microscope (AFM) delivers, for the first time, extreme imaging speed without loss of resolution, loss of force control, added complexity, or additional operating costs Atomic Force Microscopy Webinar Series High Speed AFM Imaging: Bruker Dimension FastScan...
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on Thu, May 19 2011
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Atomic force microscopy (AFM) provides the ability to perform three-dimensional measurements of surface structures at nanometer-to-subangstrom resolution in ambient and liquid environments. These capabilities have led to ground-breaking life sciences advances in the investigation of DNA, proteins, and...
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AFM has been used with great success to evaluate many of the steps in the drug fabrication process, including studies of drug interactions, gene delivery vehicles, crystal growth, and particle formation. Once a drug is formed, its dissolution properties have a direct effect on its absorption in the body...
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The human tooth has two main calcified parts with quite different mechanical properties. The enamel is hard and brittle, while the dentin is tough, and can absorb and distribute stress. Enamel and dentin meet at the dentino-enamel junction (DEJ). What is the nanometer-scale anatomy of tooth dentin, enamel...
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Because microbial surfaces are in direct contact with the external environment, they are vital to organisms. Microbial surfaces play key roles in determining cellular shape and growth, enabling organisms to resist turgor pressure, acting as molecular sieves, and mediating molecular recognition and cellular...
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Fluorescence microscopy has become an indispensable tool in cell biology because it allows specific proteins to be visualized. Atomic force microscopy (AFM) is also becoming extensively used in the life sciences, but its development has largely followed an independent path and is used for somewhat different...