Optimal evaluation of single-molecule force spectroscopy experiments

Getfert S, Reimann P (2007)
PHYSICAL REVIEW E 76(5).

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Abstract
The forced rupture of single chemical bonds under external load is addressed. A general framework is put forward to optimally utilize the experimentally observed rupture force data for estimating the parameters of a theoretical model. As an application, we explore to what extent a distinction between several recently proposed models is feasible on the basis of realistic experimental data sets.
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Getfert S, Reimann P. Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL REVIEW E. 2007;76(5).
Getfert, S., & Reimann, P. (2007). Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL REVIEW E, 76(5).
Getfert, S., and Reimann, P. (2007). Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL REVIEW E 76.
Getfert, S., & Reimann, P., 2007. Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL REVIEW E, 76(5).
S. Getfert and P. Reimann, “Optimal evaluation of single-molecule force spectroscopy experiments”, PHYSICAL REVIEW E, vol. 76, 2007.
Getfert, S., Reimann, P.: Optimal evaluation of single-molecule force spectroscopy experiments. PHYSICAL REVIEW E. 76, (2007).
Getfert, Sebastian, and Reimann, Peter. “Optimal evaluation of single-molecule force spectroscopy experiments”. PHYSICAL REVIEW E 76.5 (2007).
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