Dynamical response of nanomechanical resonators to biomolecular interactions

Authors
Eom, KilhoKwon, Tae YunYoon, Dae SungLee, Hong LimKim, Tae Song
Issue Date
2007-09
Publisher
AMER PHYSICAL SOC
Citation
PHYSICAL REVIEW B, v.76, no.11
Abstract
We studied the dynamical response of a nanomechanical resonator to biomolecular (e.g., DNA) adsorptions on a resonator's surface by using theoretical model, which considers the Hamiltonian H such that the potential energy consists of elastic bending energy of a resonator and the potential energy for biomolecular interactions. It was shown that the resonant frequency shift for a resonator due to biomolecular adsorption depends on not only the mass of adsorbed biomolecules but also the biomolecular interactions. Specifically, for double-stranded DNA adsorption on a resonator's surface, the resonant frequency shift is also dependent on the ionic strength of a solvent, implying the role of biomolecular interactions on the dynamic behavior of a resonator. This indicates that nanomechanical resonators may enable one to quantify the biomolecular mass, implying the enumeration of biomolecules, as well as gain insight into intermolecular interactions between adsorbed biomolecules on the surface.
Keywords
C-REACTIVE PROTEIN; EQUATION-OF-STATE; LIQUID-CRYSTALS; FREQUENCY SHIFT; MICROCANTILEVER; MASS; CANTILEVER; OSCILLATOR; STRESS; C-REACTIVE PROTEIN; EQUATION-OF-STATE; LIQUID-CRYSTALS; FREQUENCY SHIFT; MICROCANTILEVER; MASS; CANTILEVER; OSCILLATOR; STRESS; Nanomechanical resonator; DNA sensing; theory
ISSN
2469-9950
URI
https://pubs.kist.re.kr/handle/201004/134173
DOI
10.1103/PhysRevB.76.113408
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KIST Article > 2007
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