Noémi Rozlosnik

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We investigated the nanometer scale height fluctuations of 3T3 fibroblast cells with the atomic force microscope under physiological conditions. A correlation between these fluctuations and lateral cellular motility can be observed. Fluctuations measured on leading edges appear to be predominantly related to actin polymerization-depolymerization processes.(More)
Cell-based biosensors provide new horizons for medical diagnostics by adopting complex recognition elements such as mammalian cells in microfluidic devices that are simple, cost efficient and disposable. This combination renders possible a new range of applications in the fields of diagnostics and personalized medicine. The review looks at the most recent(More)
In this article we demonstrate the use of self-assembled peptide nanotube structures as masking material in a rapid, mild and low cost fabrication of polymerized p-toluenesulfo-nate doped poly(3,4-ethylenedioxythiophene) (PEDOT:TsO) nanowire device. In this new fabrication approach the PEDOT:TsO nanowire avoids all contact with any organic solvents(More)
  • Csilla Nemes, Noémi Rozlosnik, DOKTORI ÉRTEKEZÉS, Fehérjék nanomechanikai, tulajdonságainak mérése, Atomi Er Mikroszkópiával +1 other
  • 2000
Atomic force microscopy force-displacement curves have become a fundamental tool in biology. Furthermore, they have great importance for the study of surface interactions from a theoretical point of view. AFM is able to acquire force-displacement curves on every kind of surface and every kind of environment, with high lateral, vertical and force resolution.(More)
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