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Usually that sort of thing happens when the Z limit is reduced or if the system is not able to find the surface correctly (it is not really fully engaged. I would check the Z limit first (found in the 'Limits' group of the parameter list) -- you can type in a very large number (9999999999) to...
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Hi Jimmy, We have several application notes that might be useful to you. I can send them to you if you can give me your email. In addition, you can find several useful webinars that are related to your questions here. Please follow the link below to find out the webinars. http://www.bruker.com/service...
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Hi Krishnashish, I'm sorry to hear about your troubles with the Catalyst. I agree that you should not have to manipulate the value of the deflection sens. In the previous post I recommended to try reducing the value as a troubleshooting method. If that helps, you should go back to the hard sample...
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Correlated Imaging & Latest TERS Advances
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AN135-Rev A0-Quantitative-Imaging-Living-Biological-Samples-PeakForceQNM-(HiRes).pdf This article summarizes work that has conducted over the past year on living (and thus soft) samples by using Peak Force QNM. It focuses on silicified organisms, bacteria, and eukaryiotic cells. The Note also proposes...
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We just published a new Applications Note for download here: http://nanoscaleworld.bruker-axs.com/nanoscaleworld/media/p/1548.aspx PeakForce Tapping™ (PFT) and ScanAsyst™ (SA) are two Atomic Force Microsocope (AFM) imaging techniques that have been recently introduced by Bruker. In this application...
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Yes, you can use the PicoAngler with Catalyst. It just needs to be the NanoScope V version of the PicoAngler with the 25-pin dsub connector that plugs into the front panel of the NanoScope V. I mention that because there's a different version specific to the MultiMode PicoForce that uses a 15-pin...
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Brochure describing Bruker's BioScope Catalyst Perfusing Stage Incubator accessory.
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Veeco recently released a new Perfusing Stage Incubator accessory for the BioScope Catalyst. It enables long term maintenance of cells in situ on the BioScope Catalyst. Please see the article just published in Microscopy and Analysis for more details ( Link here ). Abstract Atomic force microscopy has...
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Mechanical properties of cells are determined by the dynamic behavior of the cytoskeleton and physical interactions with the environment. The cytoskeleton, composed of actin filaments, intermediate filaments, and microtubules, is vital for numerous key cellular processes, such as cell division, vesicle...
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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...
Posted to
Application Notes
by
BrukerApplications
on Wed, Jan 6 2010
Filed under: Cells, BioScope, Catalyst, BioScope II, Fluid Imaging, Bacteria, Cell Identification, Application Note
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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...
Posted to
Application Notes
by
BrukerApplications
on Wed, Jan 6 2010
Filed under: Drugs, Cells, BioScope, Catalyst, BioScope II, Bacteria, Pharmacology, Cell Identification, Application Note
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The best research instruments not only acquire the intended data, but actually increase productivity. Bruker’s BioScope Catalyst Atomic Force Microscope (AFM) accelerates innovative research by reducing the time and effort needed to combine the proven techniques of light microscopy with the unique...
Posted to
Brochures & Data Sheets
by
Stephen Minne
on Wed, Dec 16 2009
Filed under: Brochure, MIRO, BioScope, Catalyst, Peak Force Tapping, 8.10, ScanAsyst, PeakForce QNM, TappingMode
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In the following study, we demonstrate the power of combining atomic force microscopy AFM and fluorescence microscopy techniques to probe real-time, in-situ effects of two highly specific drugs that are able to disrupt different cytoskeleton networks inside living cells. Using Veeco Multiple Image Registration...