Elena Ermilova scite author profile

The molecular dynamics of linear poly(N-isopropylacrylamide) (pNIPAM) in aqueous media at temperatures below and above the lower critical solution temperature (LCST) are investigated using broadband dielectric relaxation spectroscopy in a frequency range from 10(-1) to 10(11) Hz. Below the LCST, two relaxation processes are observed in the megahertz and gigahertz region assigned to the reorientation of dipoles of the solvated polymer segments (p-process) and water molecules (w-process), respectively. Both relaxation processes are analyzed using the Havriliak-Negami (HN) function, taking special attention to the w-process. Above the LCST, the dielectric spectra of the pNIPAM solutions resemble that of pure water, showing only the high frequency relaxation process of the water molecules with a more or less Debye-type behavior. The non-Debye behavior of the w-process below the LCST is mainly induced by the interactions between water and pNIPAM chains via hydrogen bonding. The relaxation time and strength of the w-process is studied with dependence on the concentration, temperature, and the polymer chain length (molecular weight). The information obtained is useful for a deeper understanding of the dehydration behavior at the phase transition. The suggestion of dehydration of the pNIPAM chains at the LCST is confirmed by calculating a dehydration number.

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Dielectric measurements of aqueous DNA solutions up to 110 GHz

Ermilova

Bier

Hölzel

2014

Phys. Chem. Chem. Phys.

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A measurement system for broadband dielectric spectroscopy of biological samples for frequencies between 25 MHz and 110 GHz is presented. It is based on a vector network analyzer and a 1.19 mm-diameter open-ended coaxial probe. Complex reflection coefficients of aqueous Na-DNA solutions are measured in the frequency domain at a constant temperature of 25 °C. Complex permittivity spectra are analysed at various solute concentrations and two dispersions are observed. The first one is located at about 19 GHz and is due to the reorientation of water molecules. The second one is located at approximately 100 MHz and is interpreted as being caused by DNA counterion fluctuations. The relaxation frequency of free water in solutions appears to be practically unaffected by the presence of DNA. For the relaxation in the MHz region the dielectric loss maximum shifts to higher frequencies and the distribution of relaxation times becomes broader with increasing polymer concentration.

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Dielectric Spectroscopy of Biomolecules up to 110 GHz

Laux

Ermilova

Pannwitz

et al. 2018

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Radio-frequency fields in the GHz range are increasingly applied in biotechnology and medicine. In order to fully exploit both their potential and their risks detailed information about the dielectric properties of biological material is needed. For this purpose a measuring system is presented that allows the acquisition of complex dielectric spectra over 4 frequency decade up to 110 GHz. Routines for calibration and for data evaluation according to physicochemical interaction models have been developed. The frequency dependent permittivity and dielectric loss of some proteins and nucleic acids, the main classes of biomolecules, and of their sub-units have been determined. Dielectric spectra are presented for the amino acid alanine, the proteins lysozyme and haemoglobin, the nucleotides AMP and ATP, and for the plasmid pET-21, which has been produced by bacterial culture. Characterisation of a variety of biomolecules is envisaged, as is the application to studies on protein structure and function.

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Elena Ermilova

Dynamics of Linear Poly(N-isopropylacrylamide) in Water around the Phase Transition Investigated by Dielectric Relaxation Spectroscopy

Dielectric measurements of aqueous DNA solutions up to 110 GHz

Dielectric Spectroscopy of Biomolecules up to 110 GHz

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