Yuri Feldman scite author profile

In this review, we present an overview of the state of the art concerning the fundamental properties of electrode polarization (EP) of interest in the measurement of high conductivity samples and its implications for both dielectric (DS) and impedance spectroscopy (IS). Initially a detailed description of what constitutes EP is provided and the problems that it induces. Then, we review some of the more popular models that have been used to describe the physical phenomena behind the formation of the ionic double layer. Following this we shall enumerate the common strategies used historically to correct its influence on the measured signals in DS or in IS. Finally we also review recent attempts to employ fractal electrodes to bypass the effects of EP and to offer some physical explanation as to the limitations of their use.

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Terahertz biophotonics as a tool for studies of dielectric and spectral properties of biological tissues and liquids

Smolyanskaya

Chernomyrdin

Konovko

et al. 2018

Progress in Quantum Electronics

247

134

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Time domain dielectric spectroscopy study of biological systems

Feldman

Ermolina

Hayashi

2003

IEEE Trans. Dielect. Electr. Insul.

229

149

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Time domain dielectric spectroscopy study of human cells

Polevaya

Ermolina

Schlesinger

et al. 1999

Biochimica et Biophysica Acta (BBA) - Biomembranes

210

135

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The dielectric properties of human lymphocyte suspensions were studied by time domain dielectric spectroscopy (TDDS). Nine populations of malignant and normal lymphocytes were investigated. Analysis of the dielectric parameters of cell structural parts were performed in the framework of Maxwell-Wagner mixture formula and the double-shell model of cell. The specific capacitance of the cell membranes was estimated by the Hanai-Asami-Koisumi formula. It was shown that the dielectric permittivity, capacitance and conductivity values of cell membranes are higher for normal lymphocytes than for the malignant ones. The difference of the same parameters for normal B- and T-cells is also discussed.

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First human experiments with a novel non-invasive, non-optical continuous glucose monitoring system

Caduff¹,

Hirt²,

Feldman³

et al. 2003

Biosensors and Bioelectronics

225

136

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Yuri Feldman

Electrode polarization in dielectric measurements: a review

Terahertz biophotonics as a tool for studies of dielectric and spectral properties of biological tissues and liquids

Time domain dielectric spectroscopy study of biological systems

Time domain dielectric spectroscopy study of human cells

First human experiments with a novel non-invasive, non-optical continuous glucose monitoring system

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