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Marco, Can you install v1.4? (Download from the same location). We have made changes to the installer from 1.3 and that may be the issue. That said, we also do most of our testing on Win7 64bit with NanoScope Analysis installed as a 32 bit application so we will be interested in your results on Win7 32bit. If you still have a problem, with 1.4 also
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Hello Dalia, and glad you liked it. Regarding your questions: 1) How did you prevent the tip from contaminating while you were heating and imaging simultaneously? No special precautions (ie tip coatings, heaters, etc) were taken in the instrumentation to prevent tip contamination, however a the experiment was conducted under a stream in N2 to prevent
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Dynamic heating and cooling AFM measurements can be challenging because the temperature changes can induce considerable drift both in position, and force control. Below is a video showing a high speed imaging dynamic experiment from 60 C to -2 C. Tip scanning greatly simplifies the temperature control, while low system drift makes possible the stability
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Dynamic heating and cooling AFM measurements can be challenging because the temperature changes can induce considerable drift both in position, and force control. Linked here (http://www.youtube.com/user/BrukerNano) is a video showing a high speed imaging dynamic experiment from 60 C to -2 C. Tip scanning greatly simplifies the temperature control,
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I will send you the manual offline. Check out p15 which reviews how to connect the SAM, and the signal out's. Verify that the you can run the microscope and post if you still have a problem. Steve
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Denis, I will send it to you offline (to big to post). Steve UNIVERSAL BIPOTENTIOSTAT-E (013-390-000) Bruker’s Universal BipotentiostatTM brings new electrochemical capability to Bruker microscopes. Features include: • Compatible with all Bruker NanoScopeTM Controllers and Microscopes. • Has 7 decades of gain, from 100nA/V to 100mA/V
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Mayur, There is an option as part of the ASCII export to select the number of columns to export. Select only one data channel to keep it simple. Did you try this? Steve
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Palli, I uploaded your file here: batchHSDC.zip
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http://nanoscaleworld.bruker-axs.com/nanoscaleworld/forums/t/853.aspx
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Palli, You are on the right track for our recommended best practice on getting QNM force curves into 3rd party SW (such as Matlab). Use NanoScope Analysis function Analysis->QNM HSDC-ForceCurve-Image. Select Multiple. Set Cursors. Then export. (You can put all the curves between the cursors). Take the option to export two evenly spaced curves in