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Atomic force microscopy (AFM) has been recognized since the mid-eighties [1] as an excellent technique to image a wide range of samples in their near-natural environment. Although the primary function of AFM is to generate three-dimensional (3D) profiles of the scanned surface, much more information can be delivered via this technique. In 1993, TappingMode
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In this webinar we take a look at the growth of Peak Force Tapping in AFM research and review some of the key publications in a wide range of fields that have made use of Peak Force Tapping. Topics range over material property mapping at the nanoscale in the fields of materials, high resolution imaging, bimolecular and cell biology, batteries, graphene
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PeakForce Tapping is a Bruker exclusive AFM mode released in 2010 that is already featured in hundreds of peer reviewed publications. This post contains a list of all PeakForce Tapping publications in a .txt file (formatted according to the BiBTeX format: http://en.wikipedia.org/wiki/BibTeX ) and a second version in a .html file. PeakForce Tapping Bibliography
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Lists key benefits to upgrading your old MultiMode. Every MultiMode can be upgraded.
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Innovation with Integrity Dimension Edge Now Available with PeakForce Tapping and ScanAsyst August 2013 PeakForce Tapping™ is the most significant breakthrough in AFM technology since the advent of TappingMode™. With its inclusion on the Dimension Edge™ , a much greater number of researchers have access to the revolutionary capabilities
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A Great Year for AFM August 2013 David Rossi Executive Vice President and General Manager Bruker's AFM Business Bruker completes much anticipated renovation of the AFM headquarters of Bruker’s Nano Surfaces division in Santa Barbara, CA PeakForce Tapping is quickly becoming the new industry standard for AFM techniques and continues to cement
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Bruker-axs.com | +1 805 967-1400 NANOVATIONS Newsletter Vol. 2 August 2012 The World's Ultimate AFM Extreme Imaging Speed with Atomic Resolution Achieving atomic resolution with atomic force microscopy has been a goal of the community since the invention of the technique. There are a number of great results from academic laboratories (Fukuma et
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I'm afraid that there is currently no way to set limits as you suggest. That is a good idea. I will ask software if we can do this! --Bede
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Q: Is there any output in the QNM mode which is comparable to the phase imaging in tapping? What is the difference between Inphase and Quadrature outputs, in layman terms? Why does the quadrarture seem to have more noise? A: The inphase is the Rcos(theta) and quadrature is the Rsin(theta) outputs from the lockin that is driving the PFT modulation (usually
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See this new Nano Letters paper on ultrahigh resolution imaging and mechanical mapping of bacteriorhodopsin. http://pubs.acs.org/doi/abs/10.1021/nl202351t. I thought I would post this link as nice example of the science that can be done using the AFMs high resolution imaging power, coupled with the inherent information available from mechanical tip