Персона:
Литвинов, Артур Васильевич

Организационные подразделения

Организационная единица

Институт лазерных и плазменных технологий

Стратегическая цель Института ЛаПлаз – стать ведущей научной школой и ядром развития инноваций по лазерным, плазменным, радиационным и ускорительным технологиям, с уникальными образовательными программами, востребованными на российском и мировом рынке образовательных услуг.

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Литвинов

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Артур Васильевич

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Теперь показываю 1 - 10 из 16

Только метаданные
The detection of nitro compounds by using MIS-sensor
(2019) Mikhailov, A. A.; Litvinov, A. V.; Samotaev, N. N.; Etrekova, M. O.; Литвинов, Артур Васильевич; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна
© 2019 Published under licence by IOP Publishing Ltd. It was shown the possibility of using MIS-sensors as detectors sensitive elements of the nitro-containing organic trace. The detection is carried out due to the nitro groups, formed during the reaction of pyrolysis of the nitro compounds molecules.
Только метаданные
SnO2-Pd as a Gate Material for the Capacitor Type Gas Sensor
(2019) Samotaev, N.; Oblov, K.; Litvinov, A.; Etrekova, M.; Самотаев, Николай Николаевич; Облов, Константин Юрьевич; Литвинов, Артур Васильевич; Этрекова, Майя Оразгельдыевна
© 2019 IEEE.The article describes the result of the use SnO2-Pd thin films as a gate for structure measured ppb range of NO2 gas by the capacitive method. The technological aspects of fabrication SnO2-Pd gate and one comparison by metrological parameters with the classical Pd gate field effect sensor are discussed. The use of SnO2-Pd material allows improvement in sensitivity of NO2 by an order of magnitude compare the classical Pd based gate field effect sensors.
Только метаданные
Cluster Model of the Mechanism of Sensitivity of Gas Sensors Based on MIS Structures
(2019) Litvinov, A. V.; Samotaev, N. N.; Etrekova, M. O.; Klishin, Y. A.; Korolev, N. A.; Литвинов, Артур Васильевич; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна; Королев, Николай Анатольевич
© 2019, Pleiades Publishing, Ltd.A cluster model of the mechanism of sensitivity to gases is proposed, according to which the change in the electric capacity of a MIS sensor under the action of gas is caused by a change in the dielectric constant of the metal — dielectric transition layer under the action of gas molecules. The dielectric constant of the transition layer changes due to the rearrangement of the electronic structure of the traps.
Только метаданные
Investigation of Selectivity and Reproducibility Characteristics of Gas Capacitive MIS Sensors
(2021) Mikhailov, A.; Etrekova, M.; Litvinov, A.; Samotaev, N.; Filipchuk, D.; Oblov, K.; Этрекова, Майя Оразгельдыевна; Литвинов, Артур Васильевич; Самотаев, Николай Николаевич; Облов, Константин Юрьевич
© 2021, Springer Nature Switzerland AG.The influence of the dielectric material (Ta2O5, Si3N4, (ZrO2)10%(TiO2)90% and SnO2), its formation methods (pulsed laser deposition, plasma-chemical method, sol-gel method, reactive magnetron sputtering) and technological post-processing (forming gas annealing) has been investigated. It is shown that different methods of dielectric material obtaining affect the temperature of maximum sensitivity and response time of gas sensors. However, there is no significant improvement in selectivity in the ppb concentration range. A two-electrode capacitive sensor element was manufactured and tested. The using of two-electrode MIS sensor gives some improvement in selectivity but does not justify the cost of increasing the size and power consumption of the sensors. The reproducibility of characteristics of MIS structures of Pd-SiO2-Si and Pd-Ta2O5-SiO2-Si in sensitivity and response time was studied. More than 90% of suitable MIS structures after forming gas annealing (40 h at TMIS = 130 ℃ in a medium of 2% vol.d. H2 + air) have limit of hydrogen detection 150 ± 75 ppb and characteristic response times to supply and removal of 5 ppm H2 τ0.9 = 5 ± 3 min and τ0.1 = 8 ± 5 min, respectively. It is shown that if the sensor has the greatest sensitivity to hydrogen, then for all other gases it will be also the most sensitive among others. The stability to the effects of NO2 concentration overload was investigated. It is shown that the 1000-fold NO2 concentration overload does not poison the sensor.
Только метаданные
Hydrogen concentration control in oil-filled power transformers using field effect capacitive gas sensors
(2021) Litvinov, A.; Samotaev, N.; Etrekova, M.; Ivanova, A.; Filipchuk, D.; Литвинов, Артур Васильевич; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна; Иванова, Анастасия Владимировна
© 2021 The Author(s).A simple method is demonstrated for hydrogen concentrations measurement directly in transformer oil and in the gas space above it use a highly sensitive (at the level of units and fractions of ppm) gas sensor based on a metal-insulator-semiconductor capacitive structure (MIS sensor). The results obtained can be used in online monitoring systems and predicting the power transformers integral performance, in particular those that have been put into operation long ago, by tracking slow and invisible at the initial stage aging processes of current-carrying connections and structural elements.
Только метаданные
Methods and Tools for Evaluating the Characteristics of MIS-Capacitor Gas Sensors
(2022) Podlepetsky, B. I.; Samotaev, N. N.; Etrekova, M. O.; Litvinov, A. V.; Подлепецкий, Борис Иванович; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна; Литвинов, Артур Васильевич
Based on the electrophysical models of electrical characteristics of MIS-capacitor sensors, we analyze the features of methods and tools for evaluating metrological characteristics of the sensors in general terms and using the example of hydrogen-sensitive sensor elements with Pd-SiO2-Si structure. Recommendations are given on the choice of optimal circuit modes for determining the performance characteristics of the sensors of concentrations of hydrogen-containing gases and of gas analyzers for various purposes.
Открытый доступ
Стабилизация характеристик и модель механизма чувствительности МДП-сенсоров к газам
(МИФИ, 2008) Литвинов, А. В.; Литвинов, Артур Васильевич; Николаев, И. Н.
Только метаданные
Selective Ammonia Detection by Field Effect Gas Sensor as an Instrumentation Basis for HP-Infection Primary Diagnosis
(2022) Mikhailov, A.; Samotaev, N.; Etrekova, M.; Litvinov, A.; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна; Литвинов, Артур Васильевич
© 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.The clinical tests of device based on Metal Insulator Semiconductor Field Effect (MIS-FE) gas sensor for Helicobacter pylori infection diagnostics (HP-infection) are done by breath test method. This method is based on detecting increase ammonia concentration in patient’s exhaled air after reception of carbamide water solution. The device’s stable operation is based on MIS-FE gas sensor’s high sensitivity to ammonia, sensor’s parameters stability as well as especially developed two channels gas sampling system.
Открытый доступ
Structure and Technological Parameters’ Effect on MISFET-Based Hydrogen Sensors’ Characteristics
(2023) Podlepetsky, B.; Samotaev, N.; Etrekova, M.; Litvinov, A.; Подлепецкий, Борис Иванович; Самотаев, Николай Николаевич; Этрекова, Майя Оразгельдыевна; Литвинов, Артур Васильевич
The influence of structure and technological parameters (STPs) on the metrological characteristics of hydrogen sensors based on MISFETs has been investigated. Compact electrophysical and electrical models connecting the drain current, the voltage between the drain and the source and the voltage between the gate and the substrate with the technological parameters of the n-channel MISFET as a sensitive element of the hydrogen sensor are proposed in a general form. Unlike the majority of works, in which the hydrogen sensitivity of only the threshold voltage of the MISFET is investigated, the proposed models allow us to simulate the hydrogen sensitivity of gate voltages or drain currents in weak and strong inversion modes, taking into account changes in the MIS structure charges. A quantitative assessment of the effect of STPs on MISFET performances (conversion function, hydrogen sensitivity, gas concentration measurement errors, sensitivity threshold and operating range) is given for a MISFET with a Pd-Ta2O5-SiO2-Si structure. In the calculations, the parameters of the models obtained on the basis of the previous experimental results were used. It was shown how STPs and their technological variations, taking into account the electrical parameters, can affect the characteristics of MISFET-based hydrogen sensors. It is noted, in particular, that for MISFET with submicron two-layer gate insulators, the key influencing parameters are their type and thickness. Proposed approaches and compact refined models can be used to predict performances of MISFET-based gas analysis devices and micro-systems.
Открытый доступ
MOSFE-Capacitor Silicon Carbide-Based Hydrogen Gas Sensors
(2023) Litvinov, A.; Etrekova, M.; Podlepetsky, B.; Samotaev, N.; Oblov, K.; Литвинов, Артур Васильевич; Этрекова, Майя Оразгельдыевна; Подлепецкий, Борис Иванович; Самотаев, Николай Николаевич; Облов, Константин Юрьевич
The features of the wide band gap SiC semiconductor use in the capacitive MOSFE sensors structure in terms of the hydrogen gas sensitivity effect, the response speed, and the measuring signals optimal parameters are studied. Sensors in a high-temperature ceramic housing with the Me/Ta2O5/SiCn+/4H-SiC structures and two types of gas-sensitive electrodes were made: Palladium and Platinum. The effectiveness of using Platinum as an alternative to Palladium in the MOSFE-Capacitor (MOSFEC) gas sensors high-temperature design is evaluated. It is shown that, compared with Silicon, the use of Silicon Carbide increases the response rate, while maintaining the sensors high hydrogen sensitivity. The operating temperature and test signal frequency influence for measuring the sensor s capacitance on the sensitivity to H2 have been studied.