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Applications note #139 “AFM and Raman Spectroscopy – Correlated Imaging and Tip Enhanced Raman Scattering”: · Educates about AFM and Raman spectroscopy and explains the benefits of combining them in a straightforward way. · Highlights Bruker’s unique offerings in the field, the Innova-IRIS, Catalyst-IRIS, and ICON
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Correlated Imaging & Latest TERS Advances
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It is now well established that measuring ex vivo the mechanical properties of living cells can be a good indicator of the health of the organism from which they were extracted. Atomic force microscopy (AFM) is a powerful investigation and diagnostic tool, especially in force mode. Nevertheless, force spectroscopy suffers from several limitations, including
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Brochure describing Bruker's BioScope Catalyst Perfusing Stage Incubator accessory.
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Atomic force microscopy (AFM) has opened exciting new avenues in microbiology and biophysics for probing microbial cells. The unprecedented capabilities of AFM can be summarized as follows: i) imaging surface topography with nanometer lateral resolution and under physiological conditions; ii) measuring local physical properties such as adhesion forces
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AFM has contributed to ground-breaking research in the investigation of DNA, proteins, and cells in biological studies; structure and component distribution in polymer science; piconewton force interactions and surfactant behavior in colloid science; and physical/ mechanical properties and fabrication variables in the material sciences. Pharmaceutical
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Microscopic evaluation is important for the design and evaluation of a pharmaceutical product after the steps in the drug formulation process. Since atomic force microscopy (AFM) provides the ability to directly investigate surface structure at nanometer-to-subangstrom resolution in ambient and liquid environments, it has been applied to a wide range
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HarmoniX Nanoscale Material Property Mapping mode with fluorescence microscopy is used to probe the surface characteristics of tissues isolated from the wheat grain. The resulting data provides new insights into this essential ingredient in human nutrition.
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The new MIRO 2.0 (Microscope Image Registration and Overlay) software completes the compromise-free integration of optical and atomic force microscopy (AFM) by providing the tools necessary to control the combined optical/AFM Bioscope™ Catalyst TM system and analyze the resulting data. MIRO 2.0 allows AFM and optical data to be overlaid on the
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PeakForce QNM is a groundbreaking atomic force microscope (AFM) imaging mode that provides AFM researchers unprecedented capability to quantitatively characterize nanoscale materials. It maps and distinguishes between nanomechanical properties, including modulus and adhesion, while simultaneously imaging sample topography at high resolution. PeakForce