Oleg Kolokoltsev scite author profile

In this paper, we propose an innovative, simple and inexpensive gas sensor based on the variation in the magnetic properties of nanoparticles due to their interaction with gases. To measure the nanoparticle response a magnetostatic spin wave (MSW) tunable oscillator has been developed using an yttrium iron garnet (YIG) epitaxial thin film as a delay line (DL). The sensor has been prepared by coating a uniform layer of CuFe2O4 nanoparticles on the YIG film. The unperturbed frequency of the oscillator is determined by a bias magnetic field, which is applied parallel to the YIG film and perpendicularly to the wave propagation direction. In this device, the total bias magnetic field is the superposition of the field of a permanent magnet and the field associated with the layer of magnetic nanoparticles. The perturbation produced in the magnetic properties of the nanoparticle layer due to its interaction with gases induces a frequency shift in the oscillator, allowing the detection of low concentrations of gases. In order to demonstrate the ability of the sensor to detect gases, it has been tested with organic volatile compounds (VOCs) which have harmful effects on human health, such as dimethylformamide, isopropanol and ethanol, or the aromatic hydrocarbons like benzene, toluene and xylene more commonly known by its abbreviation (BTX). All of these were detected with high sensitivity, short response time, and good reproducibility.

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Magnonic sensor array based on magnetic nanoparticles to detect, discriminate and classify toxic gases

Matatagui

Kolokoltsev

Qureshi

et al. 2017

Sensors and Actuators B: Chemical

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Hot spin-wave resonators and scatterers

Kolokoltsev

Qureshi

Mejía-Uriarte

et al. 2012

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A method used to achieve efficient optical control of a spin wave system in yttrium iron garnet is described. Using a focused laser beam, spin wave resonators and reflectors are induced by controlled local thermal demagnetization of a thin film. We report on the formation of an optically induced potential well for magnetostatic surface spin waves (MSSWs) leading to the formation of a high-Q MSSW resonator, and a high potential barrier that efficiently reflects magnetostatic backward volume waves. V

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Mapping of spin wave propagation in a one-dimensional magnonic crystal

Ordóñez‐Romero

Lazcano

Drozdovskii

et al. 2016

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The formation and evolution of spin wave band gaps in the transmission spectrum of a magnonic crystal have been studied. A time and space resolved magneto inductive probing system has been used to map the spin wave propagation and evolution in a geometrically structured yttrium iron garnet film. Experiments have been carried out using (1) a chemically etched magnonic crystal supporting the propagation of magnetostatic surface spin waves, (2) a short microwave pulsed excitation of the spin waves, and (3) direct spin wave detection using a movable magneto inductive probe connected to a synchronized fast oscilloscope. The results show that the periodic structure not only modifies the spectra of the transmitted spin waves but also influences the distribution of the spin wave energy inside the magnonic crystal as a function of the position and the transmitted frequency. These results comprise an experimental confirmation of Bloch 0 s theorem in a spin wave system and demonstrate good agreement with theoretical observations in analogue phononic and photonic systems. Theoretical prediction of the structured transmission spectra is achieved using a simple model based on microwave transmission lines theory. Here, a spin wave system illustrates in detail the evolution of a much more general physical concept: the band gap.

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Acoustic Sensors Based on Amino-Functionalized Nanoparticles to Detect Volatile Organic Solvents

Matatagui¹,

Kolokoltsev²,

Sániger³

et al. 2017

Sensors

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Love-wave gas sensors based on surface functionalized iron oxide nanoparticles has been developed in this research. Amino-terminated iron oxide nanoparticles were deposited, by a spin coating technique, onto the surface of Love-wave sensors, as a very reproducible gas-sensing layer. The gases tested were organic solvents, such as butanol, isopropanol, toluene and xylene, for a wide and low concentration range, obtaining great responses, fast response times of a few minutes (the time at which the device produced a signal change equal to 90%), good reproducibilities, and different responses for each detected solvent. The estimated limits of detection obtained have been very low for each detected compound, about 1 ppm for butanol, 12 ppm for isopropanol, 3 ppm for toluene and 0.5 ppm for xylene. Therefore, it is demonstrated that this type of acoustic wave sensor, with surface amino-functionalized nanoparticles, is a good alternative to those ones functionalized with metal nanoparticles, which result very expensive sensors to achieve worse results.

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A novel ultra-high frequency humidity sensor based on a magnetostatic spin wave oscillator

Matatagui

Kolokoltsev

Qureshi

et al. 2015

Sensors and Actuators B: Chemical

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Determination of Phase Transition by Principal Component Analysis Applied to Raman Spectra of Polycristalline BATIO3 at Low and High Temperature

Mejía-Uriarte¹,

Sato-Berrú²,

Navarrete³

et al. 2012

JART

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Este trabajo describe el análisis de las componentes principales (PCA) aplicados a los espectros Raman del BaTiO3como función de la temperatura. Durante el experimento las muestras fueron calentadas continuamente y losespectros Raman fueron registrados cada 0.5 °C a una razón de 0.1 °C por minuto. Este procedimiento es aplicadopara muestras de polvo compacto de BaTiO3 para obtener su comportamiento térmico de -190 °C a 230 °C. Latécnica del PCA fue capaz de distinguir características espectrales para determinar la temperatura de la transición defase y la historia térmica completa, incluyendo las transiciones de fase estructural: romboédrica a ortorrómbica at -100 °C, ortorrómbica a tetragonal at -5°C y tetragonal a cúbica at 121 °C.

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Unidirectional spin wave propagation due to a saturation magnetization gradient

et al. 2021

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