Self-Sensing and –Actuating Probes for Tapping Mode AFM Measurements of Soft Polymers at a Wide Range of Temperatures - Journal of Modern Physics

JMP > Vol.2 No.2, February 2011

Self-Sensing and –Actuating Probes for Tapping Mode AFM Measurements of Soft Polymers at a Wide Range of Temperatures ()

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DOI: 10.4236/jmp.2011.22012 5,588 Downloads 10,962 Views Citations

Author(s)

Nadejda B. Matsko, Julian Wagner, Anton Efimov, Ines Haynl, Stefan Mitsche, Wolfgang Czapek, Boris Matsko, Werner Grogger, Ferdinand Hofer

Affiliation(s)

ABSTRACT

Self-sensing and –actuating probes optimized for conventional tapping mode atomic force microscopy (AFM) are described. 32-kHz quartz tuning forks with a chemically etched and focus ion beam (FIB) sharpened (curvature radii are 5-10 nm) tungsten tip are stable at air and liquid nitrogen atmosphere and at a wide range of temperatures. If driven at constant frequency, the scan speed of such sensors can be up to 3 Hz. AFM was performed on polymer samples in order to study the stability and applicability of these sensor for investigation of soft materials with high dynamical tendencies.

KEYWORDS

Tuning Fork, Sharp Tungsten Tip, AFM, Tapping Mode, Soft Materials

Share and Cite:

N. Matsko, J. Wagner, A. Efimov, I. Haynl, S. Mitsche, W. Czapek, B. Matsko, W. Grogger and F. Hofer, "Self-Sensing and –Actuating Probes for Tapping Mode AFM Measurements of Soft Polymers at a Wide Range of Temperatures," Journal of Modern Physics, Vol. 2 No. 2, 2011, pp. 72-78. doi: 10.4236/jmp.2011.22012.

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