Münster 1999 – wissenschaftliches Programm
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CP: Chemische Physik
CP 16: Neue Methoden
CP 16.4: Vortrag
Dienstag, 23. März 1999, 17:00–17:15, Gg
Dynamic viscoelastic profiles of soft polymer interfaces via noise analysis of AFM cantilevers — •Diethelm Johannsmann, Martin Gelbert, Andreas Roters, Martin Schimmel, and Jürgen Rühe — Max-Planck-Institut für Polymerforschung, Ackermannweg 10, D-55128 Mainz
The dynamic properties of the environment of an
AFM tip can be probed by observing the cantilever’s mechanical
noise. Within the "simple harmonic oscillator" approximation the
power spectral density (PSD) is given by Lorentzians with the
friction coefficient ξ, the effective mass m, and the
effective spring constant κ as fit parameters. In this way
microrheological parameters close to interfaces can be measured.
The viscoelastic profiles obtained from soft polymer brushes show
an elastic interaction extending to a tip-sample distance equal to
about the brush height. There is a strong increase in friction
(lubrication) at tip-surface distances much larger than the brush
thickness which is attributed to breathing modes. For tips deeply
immersed into a brush the noise spectra are no longer described by
resonance curves. There is an excess noise at low frequency, which
we attribute to viscoelastic dispersion. By the fluctuation
dissipation theorem the viscoelastic spectrum ξ(ω) can
be explicitly derived. We compare data taken on different brushes
and in bulk polymers.
[1] A. Roters, M. Gelbert, M. Schimmel, J. Rühe, D.
Johannsmann, Phys. Rev. E 56, 3256 (1997)