Your search keyword '"Anatoly Druzhinin"' showing total 107 results

1. Grain boundary effect on the anisotropy piezoresistance of laser-recrystallized polysilicon layers in SOI-structures

Author

Yury Pankov and Anatoly Druzhinin

Subjects

SOI, polysilicon layers, MLR, Telecommunication, TK5101-6720, Information technology, T58.5-58.64

Abstract

A physical model of grain boundary in uence on the piezoresistive effect of p-type conductivity of polysili- con layers in SOI-structures is developed. Software calculat- ing piezoresistive properties of boron-doped p-type polysilicon layers has been developed. These properties may be calcu- lated over wide concentration and temperature ranges with anisotropy taken into account and with the average grain size as a parameter. The potential barrier regions around the grain boundaries in uence the deformation changes of anisotropy resistance in the fine-grained non-recrystallized SOI-structures doped with boron up to 3*1019cm-3

Published

2001

2. Magneto-transport properties of Si1−xGex <B, Hf> whiskers

Author

Anatoly Druzhinin, Igor Ostrovskii, Yuriy Khoverko, and Natalia Liakh-Kaguy

Subjects

Physics and Astronomy (miscellaneous), General Physics and Astronomy

Abstract

The field and temperature magnetoresistance dependences of the Si1− xGe x ( x = 0.05) whiskers at low temperatures were studied in the magnetic field range of 0−14 T with using of the Bitter magnet. The investigated whiskers with diameters 5−15 μm were grown by chemical vapour deposition with a doping concentration in the vicinity to the metal-insulator transition ( Nc ≈ 7.8 ⋅ 1018 cm−3). The linear magnetoresistance effect of the solid solution Si1- xGe x whiskers was found in all range of the magnetic fields due to the surface coherence scattering of charge carriers as a result of conduction in the whisker core-shell structure.

Published

2022

3. Si nanowires for Delta rhythm generator

Author

Kateryna Ostrovska, Anatoly Druzhinin, Ihor Ostrovskii, and Natalia Liakh-Kaguy

Subjects

General Materials Science, General Chemistry, Condensed Matter Physics

Published

2022

4. Investigation of nanoporous silicon on the frontal surface of solar cells by mass spectroscopy

Author

Valerij Yerokhov, Anatoly Druzhinin, and Stepan Nichkalo

Subjects

General Materials Science, General Chemistry, Condensed Matter Physics

Published

2022

5. Low Temperature Parameters of Exchange Interaction of the Polycrystalline Layers in SOI-Structures

Author

Anatoly Druzhinin, Yuriy Khoverko, Igor Ostrovskii, Anastasia Moroz, Igor Kogut, and Victor Holota

Published

2022

6. Magnetoresistance of GaPAs and InSb whiskers

Author

Anatoly Druzhinin, Igor Ostrovskii, Yuriy Khoverko, Natalia Liakh-Kaguy, and Dmytro Chemerys

Subjects

Materials Science (miscellaneous), Cell Biology, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Atomic and Molecular Physics, and Optics, Biotechnology

Published

2022

7. Construction diploma design on VIM-technology

Author

Anatoly Druzhinin and Oksana Davidenko

Subjects

Engineering management, Engineering, Construction industry, business.industry, Information model, Information technology, Object (computer science), business

Abstract

The development of the construction industry of Ukraine as a basis for economic transformations through the introduction of information technology (IT), put forward appropriate requirements for specialists. There is a need at the state level to solve the problem of need and development in the labor market of competencies of specialists for the construction industry in the implementation of VIM technologies, creating a single information model in the construction of Ukraine, which would combine architectural, design, engineering, cost, ecological components with access to cost-effective decision-making for the life cycle of the object and, accordingly, the introduction of innovative technologies in the education and training of competent professionals.

Published

2021

8. Formation of the nanoporous Si structure of solar cell with using a model representation

Author

Nazar Shtangret, Anatoly Druzhinin, Valerij Yerokhov, and Stepan Nichkalo

Subjects

Materials science, Silicon, business.industry, Nanoporous, Structure (category theory), chemistry.chemical_element, General Chemistry, Condensed Matter Physics, Isotropic etching, law.invention, Nanopore, chemistry, law, Computer Science::Computer Vision and Pattern Recognition, Solar cell, Optoelectronics, General Materials Science, Reflection coefficient, business, Mesoporous material

Abstract

In this study, to obtain frontal functional nanolayers of solar cells, an analysis of existing models of PSi was made. In order to achieve a low integral reflection coefficient of a textured Si sur...

Published

2021

9. Critical fields and features of electromagnetic transport of Bi2Se3 whiskers at low temperatures

Author

Valeria Mazur, Igor Ostrovskii, Natalia Liakh-Kaguy, Yuriy Khoverko, and Anatoly Druzhinin

Subjects

010302 applied physics, Superconductivity, Materials science, Physics and Astronomy (miscellaneous), Condensed matter physics, Whiskers, General Physics and Astronomy, Conductivity, Atmospheric temperature range, 01 natural sciences, Coherence length, Magnetic field, Impurity, Condensed Matter::Superconductivity, 0103 physical sciences, 010306 general physics, Critical field

Abstract

The temperature dependences of resistance of n-type conductivity Bi2Se3 whiskers with doping concentration (1–2)⋅1019 cm−3 were studied in the temperature range 1.6–300 K. The sharp drop of the resistance was detected that is a result of a partial transition to the superconductive state at the critical temperature Tc = 5.3 K and probably due to the inclusion of β-PdBi2 phase in the studied samples. The transverse magnetoresistance of Bi2Se3 whiskers with various concentration of Pd doping impurity corresponding to the metal side of metal-insulator transition was studied in a magnetic field of 0–10 T. Superconductivity suppression effect by the magnetic field was found that permits to create the basic parameters such as the upper critical field Bc2 = 1.5 T, the coherence length of the superconductor ξ (0) = 15 nm and the superconducting gap Δ ≈ 0.8 meV. Studies of the n-type conductivity Bi2Se3 whiskers allow to create on their basis magnetic field sensors with a sensitivity of about 3.5% / T, capable in the temperature range of 4.2–77 K. The investigated crystals can also be used in the magnetic switch-control sensors magnetic switches due to the transition to the superconducting state at the critical temperature Tc, depending on a magnetic field induction.

Published

2021

10. Peculiarities of the Magnetoresistance Si<B,Ni> Microcrystals as Sensetive Element of Sensors

Author

Anatoly Druzhinin, Yuriy Khoverko, Igor Ostrovskii, Natalia Liakh-Kaguy, Arthur Medvid, and Dmytro Chemerys

Published

2022

11. Tensometric Characteristics of GaSb Strain Gauges

Author

Anatoly Druzhinin, Oleksiy Kutrakov, Igor Ostrovskii, Yuriy Khoverko, Natalia Liakh-Kaguy, and Dmytro Chemerys

Published

2021

12. Magnetoconductance of Polycrystalline Silicon in SemOI-structures for Sensors Application

Author

Igor Kogut, Taras Benko, Victor Golota, Anatoly Druzhinin, Anton Lukianchenko, and Yuriy Khoverko

Subjects

Materials science, Silicon, Condensed matter physics, Capacitive sensing, chemistry.chemical_element, Deformation (meteorology), Conductivity, engineering.material, Magnetic field, Polycrystalline silicon, chemistry, engineering, Charge carrier, Helium

Abstract

The work is based on research magnetotoconductance polysilicon layer in SemOI-structures, which are under the influence of a magnetic field up to 14 T at temperatures of liquefied helium. The samples were subjected to deformation to determine the effect of material dispersion on low-temperature conductivity. Considered occurrence from capacitive relative magnetic conductivity at liquefied helium temperatures is caused by superposition of charge carriers at low temperatures in magnetic fields with B cr ~ 3T in the framework of the quantum transfer mechanism model. The determined concentration of polysilicon samples must be used in the development of sensors of mechanical quantities, operational in difficult operating conditions, namely under the influence of deformation in strong magnetic fields up to 14T at temperatures of 4.2 K.

Published

2021

13. Rashba Interaction in Polysilicon Layers SemOI-Structures

Author

Anatoly Druzhinin, Igor Ostrovskii, Krzysztof Rogacki, and Yuriy Khoverko

Subjects

010302 applied physics, Materials science, Condensed matter physics, Magnetoresistance, Conductance, 02 engineering and technology, Spin–orbit interaction, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Grain size, Electronic, Optical and Magnetic Materials, Coherence length, Weak localization, Condensed Matter::Materials Science, Polycrystalline silicon, 0103 physical sciences, Materials Chemistry, engineering, Condensed Matter::Strongly Correlated Electrons, Grain boundary, Electrical and Electronic Engineering, 0210 nano-technology

Abstract

The measurements of the magnetoresistance for p-type poly-Si with concentration 2.4 × 1018 cm−3 were carried out in the low temperature range 4.2–20 K and in the magnetic field up to 14 T. The results showed the presence of a negative magnetoresistance in polycrystalline silicon films in SemOI-structures. The low-temperature transport of charge carriers in p-type polycrystalline silicon films was considered within the framework of hopping conductivity and can be described by the spin–orbital interaction in the theory of weak localization. The calculated values of the coherence phase length 3–4 nm and the spin–orbit coherence length 30–50 nm at low temperatures 4.2–30 K correlate with parameters of hopping conductance and grain size, respectively, which show a contribution of Rashba spin–orbit interaction with energy ΔSO = 1.6 meV in the conductance not only inside the grains, but also its surface and between grain boundaries of polycrystalline silicon in SemOI structures.

Published

2019

14. Quantization in magnetoresistance of strained InSb whiskers

Author

Natalia Liakh-Kaguy, I. Ostrovskii, Anatoly Druzhinin, and Yu. Khoverko

Subjects

Materials science, Physics and Astronomy (miscellaneous), Condensed matter physics, Magnetoresistance, Scattering, Whisker, Electrical resistivity and conductivity, Whiskers, General Physics and Astronomy, Низькотемпературний магнетизм, Atmospheric temperature range, Shubnikov–de Haas effect, Magnetic field

Abstract

Strain influence on the longitudinal magnetoresistance for the n-type conductivity InSb whiskers doped by Sn to concentration 6·10¹⁶–6·10¹⁷ сm⁻³ was studied in the temperature range 4.2–40 K and magnetic field up to 10 T. The Shubnikov–de Haas oscillations at low temperatures were observed in the strained and unstrained samples in all range of doping concentrations and magnetic fields. The character of longitudinal magnetoresistance dependences was analyzed and compared with theoretical one. The whisker magnetoresistance alters its sign with increasing magnetic field. It is positive at weak magnetic fields and becomes negative at higher magnetic fields. Possible mechanism of the large value of negative magnetoresistance (NMR) was discussed in the InSb whiskers with doping concentration in the vicinity to metal–insulator transition. The origin of large NMR was explained by the existence of classical size effect and boundary scattering during conductance in subsurface whisker layers. На основі досліджень поздовжнього магнітоопору ниткоподібних кристалів InSb n-типу провідності, легованих Sn до концентрацій 6·10¹⁶–6·10¹⁷ см⁻³ , в інтервалі температур 4,2– 40 К і магнітних полів до 10 Тл виявлено осциляції Шубнікова–де Гааза в деформованих і недеформованих зразках. Проведено аналіз поведінки польових залежностей магнітоопору згідно відомих теоретичних уявлень. Встановлено, що з підвищенням індукції магнітного поля магнітоопір ниткоподібних кристалів InSb змінює свій знак від позитивного до від’ємного. Обговорюються механізми, які зумовлюють появу високих значень від’ємного магнітоопору (ВМО) у зразках InSb з концентрацією легуючої домішки, що відповідає близькості до переходу метал–діелектрик. Існування ВМО пов’язане з класичним розмірним ефектом, а також гранічним розсіюванням у провідності приповерхневих шарів мікрокристалів. На основе исследований продольного магнитосопротивления нитевидных кристаллов InSb n-типа проводимости, легированных Sn до концентраций 6·10¹⁶–6·10¹⁷ см⁻³ , в интервале температур 4,2–40 К и магнитных полей до 10 Тл обнаружены осцилляции Шубникова–де Гааза в деформированных и недеформированных образцах. Проведен анализ поведения полевых зависимостей магнитосопротивления согласно известным теоретическим представлениям. Установлено, что с повышением индукции магнитного поля магнитосопротивление нитевидных кристаллов InSb меняет свой знак от положительного к отрицательному. Обсуждаются механизмы, которые обусловливают появление высоких значений отрицательного магнитосопротивления (ОМС) в образцах InSb с концентрацией легирующей примеси, соответствующей близости к переходу металл–диэлектрик. Существование ОМС обусловлено классическим размерным эффектом, а также граничным рассеиванием в проводимости приповерхностных слоев микрокристаллов.

Published

2019

15. Strain-Induced Berry Phase in GaSb Microcrystals

Author

Yuriy Khoverko, Natalia Liakh-Kaguy, Igor Ostrovskii, and Anatoly Druzhinin

Subjects

Materials science, Magnetoresistance, Condensed matter physics, Oscillation, Doping, Electron, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, 010305 fluids & plasmas, Magnetic field, Effective mass (solid-state physics), Geometric phase, Topological insulator, 0103 physical sciences, General Materials Science, 010306 general physics

Abstract

The transverse and longitudinal magnetoresistances of GaSb microcrystals with tellurium doping concentration of 1.7 × 1017 cm−3 under the influence of uniaxial compression strain were studied in high magnetic fields of 0–14 T. Low-temperature Shubnikov–de Haas oscillations were observed for unstrained and strained n-type conductivity GaSb microcrystals in the whole range of the magnetic fields. The magnetoresistance oscillation amplitude decreases with the temperature increasing in the range of 4.2–30 K. The Shubnikov–de Haas oscillation period was changed due to the strain influence, and it was found to be 0.039 T−1. The emergence of the splitting at a magnetic field of about 7 T was revealed in the longitudinal magnetoresistance of GaSb microcrystals doped to a concentration in the vicinity of the metal–insulator transition. The value of the g-factor was found in the strained samples, and it has a value of 53. The strain influence on the effective mass of the electron mc and the Dingle temperature TD were also studied. The appearance of the Berry phase caused by the strain was revealed in GaSb microcrystals allowing their transition to the topological insulator state.

Published

2019

16. Simulation An Integrated Sensor As An Element Of CMOS Inverter

Author

Yuriy Khoverko, Victor Holota, Igor Kogut, Taras Benko, Stepan Nichkalo, and Anatoly Druzhinin

Subjects

Repeater, business.industry, Computer science, Amplifier, Transistor, Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Inductor, Signal, law.invention, Capacitor, Hardware_GENERAL, law, MOSFET, Hardware_INTEGRATEDCIRCUITS, Inverter, business, Hardware_LOGICDESIGN

Abstract

The article shows the results of modeling the electrical circuits of integrated sensor as part of the CMOS inverter. Capacitor, inductor and MOS transistor were used as the integrated sensor. The change of sensor values is detected by a circuit containing three stages: input buffer, amplifier and repeater. The integral sensor is connected to the gate of one of the MOS transistors of input buffer. Shows how the change in the value of the integrated sensor affects the shape of the output signal of the measuring circuit

Published

2021

17. Efficiency Gain of Silicon Solar Cells Through Using of Multitextures

Author

Valeriy Yerokhov, Roman Dudnik, Stepan Nichkalo, and Anatoly Druzhinin

Subjects

010302 applied physics, Materials science, Fabrication, Silicon, business.industry, Photovoltaic system, chemistry.chemical_element, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Porous silicon, 01 natural sciences, law.invention, Coating, chemistry, law, 0103 physical sciences, Solar cell, engineering, Optoelectronics, Texture (crystalline), 0210 nano-technology, business, Porosity

Abstract

Application of the porous silicon multitextures as an efficient and commercially viable coating has to be maximally adapted to processes of the silicon solar cell manufacturing. The possibility to create the porous silicon multitexture as a basic material for the fabrication of efficient solar cells is shown. As a result of electrochemical etching, the columnar porous silicon texture was fabricated in terms to obtain a low-reflection structure. The reflection of prepared frontal texture based on columnar porous texture exhibited lower values in comparison to the random pyramid texture in the wavelength range 400–1150 nm. It was demonstrated higher photovoltaic performances of test solar cells with a columnar porous silicon texture in comparison to those with pyramidal textures.

Published

2020

18. Giant Magnetoresistance in the Deformed Microcrystals of Indium Antimonide

Author

Natalia Liakh-Kaguy, Valeria Mazur, Yuriy Khoverko, Anatoly Druzhinin, and Igor Ostrovskii

Subjects

Materials science, Condensed matter physics, Magnetoresistance, Indium antimonide, Whiskers, Doping, Giant magnetoresistance, 02 engineering and technology, Atmospheric temperature range, Conductivity, 021001 nanoscience & nanotechnology, 01 natural sciences, Magnetic field, chemistry.chemical_compound, chemistry, 0103 physical sciences, 010306 general physics, 0210 nano-technology

Abstract

Giant magnetoresistance (up to 700%) of the deformed InSb whiskers with doping concentration 6×1016-2×l017 cm−3 was observed in magnetic fields with induction up to 10 T at temperature range 4.2–70 K. The effect was explained taking into account two-channel conductivity of the whiskers with core-shell structure. Besides, the obtained results were discussed in the framework of the quantum magnetoresistance theory. The obtained results allow to design the magnetic field sensor on the deformed InSb whiskers.

Published

2020

19. Frequency response in polycrystalline silicon films of SemOI-structures

Author

Victor Holota, Anatoly Druzhinin, Yuriy Khoverko, Igor Kogut, Taras Benko, and Igor Ostrovskii

Subjects

Frequency response, Range (particle radiation), Materials science, Dopant, business.industry, Atmospheric temperature range, engineering.material, Polycrystalline silicon, engineering, Optoelectronics, Crystallite, Equivalent circuit method, business, Electrical impedance

Abstract

The paper proposes a comprehensive approach for the investigation of polycrystalline layers of SemOI- structures in a wide range of concentrations of dopant from 2.4×10−18 go 1.7×10−20 cm−3 for the temperature range 4.2-70 K by studying the frequency response in the frequency range from 0.010- 250 kHz and its analysis by the equivalent circuit method.

Published

2020

20. Calculation of Efficiency in Solar Cell Based on Porous Silicon

Author

Olga Buryk, Valerij Yerokhov, and Anatoly Druzhinin

Subjects

Work (thermodynamics), Materials science, business.industry, Universal structure, engineering.material, Porous silicon, GeneralLiterature_MISCELLANEOUS, law.invention, Coating, law, Solar cell, engineering, Optoelectronics, business, Silicon solar cell

Abstract

Development of a model of the solar cell (SC) structure for creating a mathematical algorithm of the efficiency of SC with porous silicon is shown. The mathematical apparatus of the universal structure of porous silicon-based SC has been shown. Two approaches to its work were combined conditionally. Application of the porous silicon textures as an efficient and commercially viable coating has to be maximally adapted to processes of the silicon solar cell manufacturing.

Published

2020

21. Role of Ag-catalyst morphology and molarity of AgNO3 on the size control of Si nanowires produced by metal-assisted chemical etching

Author

Anatoly Druzhinin, Oleksandr Ostapiv, Stepan Nichkalo, and Mykola Chekaylo

Subjects

Materials science, Fabrication, Molar concentration, Silicon, Analytical chemistry, Nanowire, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Isotropic etching, 0104 chemical sciences, chemistry, Etching (microfabrication), General Materials Science, Wafer, 0210 nano-technology, Deposition (law)

Abstract

In this paper we demonstrate a controlled fabrication of vertically aligned silicon nanowires (Si NWs) on n-type (100)-oriented and p-type (111)-oriented Si wafers by metal-assisted chemical etching (MaCE) method. The etching of Si-wafer samples covered with Ag nanoparticles as catalyst agents was carried out in HF/H2O2/H2O solution of various volumetric ratios. We show that molar concentration of AgNO3, Ag-nanoparticles deposition time, and the etching time determine the shape and size of produced Si NWs. Vertically aligned tall Si NWs can be produced by immersing the n-Si(100) wafer with pre-deposited from AgNO3 [22mM]/HF [5M]-solution silver nanoparticles in the etchant HF/H2O2/H2O (4:1:4) for different time. When the duration of Ag-deposition increased from 15 to 30 s in a solution 22 mM AgNO3/5 M HF, the etching rate of Ag-loaded n-Si(100) samples was found to be the same (∼ 1.6 µm/min). For 120 s Ag-deposited samples, the etching rate decreased to 560 nm/min. So, the height and density of Si...

Published

2018

22. Spin-orbit interaction in InSb core-shell wires

Author

Anatoly Druzhinin, Natalia Liakh-Kaguy, I. Ostrovskii, Yu. Khoverko, and A. Lukyanchenko

Subjects

Materials science, Condensed matter physics, Whiskers, Doping, 02 engineering and technology, General Chemistry, Spin–orbit interaction, Atmospheric temperature range, Conductivity, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Core shell, Transverse plane, 0103 physical sciences, General Materials Science, 010306 general physics, 0210 nano-technology

Abstract

The transverse magnetoconductance of the n-type conductivity InSb whiskers doped by Sn to concentration 4.4 × 1016 ÷ 7.16 × 1017 cm−3 were studied in the temperature range 4.2 ÷ 70 K and weak magne...

Published

2018

23. Nanoscale polysilicon in sensors of physical values at cryogenic temperatures

Author

Yuriy Khoverko, Anatoly Druzhinin, Krzysztof Rogacki, Victor Golota, Igor Kogut, and Igor Ostrovskii

Subjects

Materials science, business.industry, Orders of magnitude (temperature), 020209 energy, 02 engineering and technology, Atmospheric temperature range, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Magnetic field, Electrical resistivity and conductivity, Percolation, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Microelectronics, Charge carrier, Electrical and Electronic Engineering, 0210 nano-technology, business

Abstract

Studies of polysilicon in a wide range of concentrations from 2.4 × 1018 to 1.7 × 1020 in temperature range 1.6–300 K and high magnetic fields up to 14Т were carried out in order to predict the characteristics of a material suitable for the creation of microelectronic sensors of physical values based on SemOI-structures. One of the advantages of SemOI-structures is the ability to receive layers with difference in resistivity in a wide range: several orders of magnitude. As it is determined by studies at low temperatures the transfer of charge carriers in polysilicon occurs due to hopping on localized impurities. There have also been found combined mechanisms of current flow at low temperatures, which, depending on the observation temperature, are evident in the transition from the Mott law to the percolation mechanism of Shklovskii-Efros. Those effects can be used to create elements of sensor technology. Sensors of thermal quantities for cryogenic temperatures were developed with TCR = − 9% × K−1 in the range of 4.2–50 K and mechanical quantities for cryogenic temperatures were developed for ultra-sensitivity with coefficient of gauge-factor K = 15500 in the range of 4.2–50 K. Investigation in wide range of cryogenic temperatures was conducted with the purpose of optimizing the geometry of the sensor membrane (its thickness and surface area) in order to obtain optimal stresses and deformations in the membrane. This process is essential for the sensor to be able to provide a sufficient amount of the output signal while maintaining the strength of the membrane and the sensor structure as a whole.

Published

2018

24. Development of Multitextures on the Basis of Porous Silicon for High Performance Photoelectric Converters

Author

Valeriy Yerokhov, Roman Kusminskyi, Anatoly Druzhinin, and Yuriy Khoverko

Subjects

Fabrication, Materials science, Silicon, business.industry, Energy conversion efficiency, chemistry.chemical_element, Solar energy, Porous silicon, Isotropic etching, law.invention, chemistry, law, Solar cell, Optoelectronics, Texture (crystalline), business

Abstract

The conversion efficiency of solar energy can be significantly increased if silicon of a multiporous texture is used as the front surface of a solar cell. The possibility to create the porous silicon multitexture as a basic material for fabrication of efficient photoelectric converters is shown. As a result of electrochemical etching, the columnar porous silicon texture was fabricated in terms to obtain a low-reflection structure. The reflection of prepared frontal texure based on columnar porous texure exhibited lower values in comarison to random pyramid texture in the wavelength range 400-1150 nm. It was demonstrated higher photovoltaic performances of test photoelectric converters with a columnar porous silicon texture in comparison to those with pyramidal textures.

Published

2019

25. Spin-dependent Transport of DMS on the Base Silicon Whiskers: Impedance, Structure and Properties

Author

Anatoly Druzhinin, Yuriy Khoverko, Igor Ostrovskii, and Anton Lucyanchenko

Subjects

Materials science, Condensed matter physics, Silicon, Whiskers, Doping, chemistry.chemical_element, Magnetic hysteresis, Condensed Matter::Materials Science, Hysteresis, Magnetization, chemistry, Whisker, Condensed Matter::Superconductivity, Condensed Matter::Strongly Correlated Electrons, Magnetic impurity

Abstract

An influence of a magnetic impurity distribution on the AC transport of charge carriers in silicon whiskers doped with boron and nickel at low temperatures was investigated. The concentration of Ni impurities obtained from impedance and magnetization data was shown to coincide and equal to 3×1017 cm−3. The obtained hysteresis of the whisker magnetization was used to design multifunctional sensor as well as storage device.

Published

2019

26. Weak Localization in GaSb Whiskers under Strain Influence

Author

Anatoly Druzhinin, Natalia Liakh-Kaguy, Yuriy Khoverko, and Igor Ostrovskii

Subjects

Weak localization, Materials science, Magnetoresistance, Strain (chemistry), Field (physics), Condensed matter physics, Whisker, Whiskers, Charge carrier, Magnetic field

Abstract

The article deals with the studies of strain influence of n-type GaSb whiskers magnetoresistance at low temperatures 4.2 – 60 K The crossover from WAL to WL occurs under the compressive strain at 4.2 K The field dependency of the whiskers magnetoresistance was used for design of sensor of magnetic field induction in the range 1-11 T.

Published

2019

27. Modelling and Fabrication of the Silicon-Based Device Structures for Microelectronic Applications

Author

Igor Kogut, Victor Holota, Anatoly Druzhinin, Stepan Nichkalo, and Yuriy Khoverko

Subjects

Fabrication, Materials science, Silicon, business.industry, Silicon on insulator, chemistry.chemical_element, Isotropic etching, Surface micromachining, chemistry, Etching (microfabrication), Optoelectronics, Microelectronics, Wafer, business

Abstract

In this paper the results of micromachining of Si wafer by various approaches are presented. The technological process based on silicon-on-insulator technology (SOI) was developed. It was shown that by choosing the topological size of the grooves, cavities and their shape, it is possible to obtain the cavities underneath the surface of Si wafer. The next procedures of deposition of polysilicon and silicon oxide films allowed to fabricate the sealed SOI cavities, which were considered as the device structures, sensitive or actuator elements. The process of Si-nanostructure fabrication through the wet chemical etching of Si wafer applicable in a wide range of applications is presented.

Published

2019

28. Strain-induced Magnetoconductance in Germanium Whiskers

Author

Yuriy Khoverko, Natalia Liakh-Kaguy, Igor Ostrovskii, and Anatoly Druzhinin

Subjects

Condensed Matter::Materials Science, Range (particle radiation), Materials science, Condensed matter physics, Strain (chemistry), chemistry, Magnetoresistance, Whiskers, chemistry.chemical_element, Germanium, Gallium, Energy (signal processing), Magnetic field

Abstract

Germanium whiskers with gallium concentration $2\times 10^{17}\mathrm {c}\mathrm {m}^{-3}$ were chosen to investigate magnetoconductance in the range 0-14 T at 4.2 K under compressive strain up to - $2\times 10^{-3}$ rel.un. Strain influence on spin-orbital splitting on the valence band spectrum was studied. As result, the splitting of light and heavy hole branches was found under compressive strain according to kp-method. The spin splitting energy $\Delta \mathrm {s}\mathrm {o}$ as well as Rashba cubic parameter $\beta \mathrm{so}$ was found due to studying the longitudinal magnetoconductance of Ge whiskers at low temperatures.

Published

2019

29. Temperature Sensors Based on Metal-Silicon Microstructure for Microsystem Technology

Author

Natalia Shcherban, Yuriy Khoverko, Anton Lukianchenko, Igor Ostrovskii, and Anatoly Druzhinin

Subjects

Materials science, Magnetoresistance, Silicon, 010401 analytical chemistry, Analytical chemistry, chemistry.chemical_element, Atmospheric temperature range, Microstructure, 01 natural sciences, 0104 chemical sciences, chemistry, Impurity, Electrical resistivity and conductivity, 0103 physical sciences, 010306 general physics, Boron, Helium

Abstract

The basis of the research of this work is to predict the characteristics of sensors of the thermal quantities based on silicon whiskers admixture with B & Ni impurities. In these samples, the concentration of the transport impurity of boron corresponds to the phase transition of the metal-insulator in silicon from the metallic side. On the basis of experimental temperature dependences of resistance of microcrystals Si (B, Ni) with a concentration of boron NB≈l×1019 cm−3 and resistivity crystals P300k=0.007 Ohmxcm in the temperature range 4,2-300 K, the linear dependence of the resistance versus temperature with positive values of the temperature resistance coefficient is shown. Determined by the temperature of liquefied helium maximum magnetoresistance reaches no more than 4% in magnetic fields with induction do14T. Proposed thermoresistive sensor is working in harsh operating environment and is resistant to the influence of destabilizing factors.

Published

2019

30. SOI p-MOS Biosensor Circuit-Layout Simulation

Author

Victor Holota, Igor Kogut, Yuriy Khoverko, Anatoly Druzhinin, and Volodymyr Gryga

Subjects

Materials science, business.industry, Amplifier, 05 social sciences, Transistor, Differential amplifier, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, 021001 nanoscience & nanotechnology, Signal, law.invention, Capacitor, Hardware_GENERAL, law, 0502 economics and business, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, 0210 nano-technology, business, Biosensor, 050203 business & management, Voltage, Electronic circuit

Abstract

The paper presents a new biosensor design for protein detection. An electric circuit is proposed on the basis results of technological and circuit-layout simulation of the biosensor. In this design, a capacitor, one side of which is a sensitive region, serially connected to the gate of the amplifier transistor. The simulation results show that the developed biosensor has a high sensitivity and linear dependence of the output voltage on the potential of the information signal.

Published

2019

31. Morphology of Nanowire Arrays Produced by Metal-Assisted Chemical Etching on Si Wafers of Different Types: Comparative Analysis

Author

Stepan Nichkalo, Mykola Chekaylo, and Anatoly Druzhinin

Subjects

Fabrication, Materials science, Silicon, business.industry, Nanowire, Nanoparticle, chemistry.chemical_element, 02 engineering and technology, Conductivity, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Isotropic etching, 0104 chemical sciences, chemistry, Etching (microfabrication), Optoelectronics, Wafer, 0210 nano-technology, business

Abstract

The results of studies on fabrication of silicon nanowires on the surface of silicon wafers of different types using the metal-assisted chemical etching method are presented. The influence of the deposition time of Ag particles on their morphology and filling density on the surface of silicon wafers has been analyzed. At different etching time of wafer samples of n-type in a HF-H2O2 based etching solution, vertically aligned arrays of solid nanowires are obtained. It is shown that changing the duration of Ag nanoparticles deposition at the same etching time, it is possible to change the distance between the nanowire stacks. It was established that under identical technological conditions the nanowires were not formed on a p-Si wafer. The results are discussed from the point of view of the specific etching mechanism of Si wafers with different type of conductivity and crystallographic orientation.

Published

2019

32. Deformation-induced Magnetoconductance in Silicon Whiskers near Metal-insulator Transition

Author

Natalia Liakh-Kaguy, Anatoly Druzhinin, Igor Ostrovskii, and Yuriy Khoverko

Subjects

Range (particle radiation), Materials science, Silicon, Condensed matter physics, Liquid helium, Whiskers, chemistry.chemical_element, Deformation (meteorology), law.invention, Boron concentration, chemistry, law, Valence band, Metal–insulator transition

Abstract

Silicon whiskers with boron concentration 2×1018cm-3 were chosen to investigate magnetoconductance in the range 0–14 T at 4.2 K under compressive deformation up to -2×10-3 rel.un. Deformation influence on spin-orbital splitting on the valence band spectrum was studied. As result, the splitting of light and heavy hole branches was found under compressive deformation according to kp-method. The spin splitting energy Δ so was found due to studying the longitudinal magnetoconductance of Si whiskers at 4.2 K.

Published

2019

33. Спін-орбітальне розщеплення валентної зони в кремнієвих ниткоподібних кристалах під дією деформації

Author

Natalia Liakh-Kaguy, Yuriy Khoverko, Igor Ostrovskii, and Anatoly Druzhinin

Subjects

Radiation, Materials science, Silicon, Condensed matter physics, Strain (chemistry), magnetoconductance, spin-orbit splitting, Whiskers, Si whiskers, chemistry.chemical_element, спін-орбітальне розщеплення, Condensed Matter Physics, магнітопровідність, деформація, strain, chemistry, ниткоподібні кристали Si, Valence band, General Materials Science, Orbit (control theory), Spin-½

Abstract

Магнітопровідність ниткоподібних кристалів Si з концентрацією легуючої домішки 2 x 1018 см – 3 досліджували в інтервалі магнітних полів 0-14 Тл при кріогенних температурах за деформації стиску до – 2 x 10 – 3 відн. од. Легування кристалів бором здійснювали у процесі росту методом хімічного парофазного осадження і концентрація носіїв заряду, згідно холлівських вимірювань, становила порядку 2 x 1018 см – 3. Одновісну деформацію ниткоподібних кристалів здійснювали шляхом їх закріплення на підкладках з використанням термічної деформації за рахунок різниці коефіцієнтів термічного розширення кристала і матеріалу підкладки. Досліджено поздовжній магнітоопір для недеформованих і деформованих зразків Si в інтервалі температур 4.2 ÷ 70 К. Недеформовані зразки мають квадратичну залежність магнітоопору від індукції магнітного поля. Деформація приводить до появи великого від’ємного магнітоопору з максимальною величиною до 15 %. Обговорюються можливі причини цього ефекту. Найбільш вірогідною причиною виникнення від’ємного магнітоопору є слабка локалізація носіїв заряду. Згідно з розрахунками у моделі слабкої локалізації носіїв заряду показано, що довжина когерентності Lφ і довжина спін-орбітальної взаємодії Lso пропорційна T– 0.53 і T – 0.45, відповідно, що відповідає теоретичним даним T– 1/2 для двовимірної системи. Це свідчить про те, що основний внесок у провідність ниткоподібних кристалів Si вносить транспорт носіїв заряду у приповерхневих шарах кристалів. Досліджено вплив деформації на спін-орбітальне розщеплення та спектр валентної зони ниткоподібних кристалів. В результаті розрахунків згідно k-p-методу виявлено значне розщеплення гілок легких і важких дірок під дією деформації стиску. Отримано енергію спін-орбітального розщеплення підзони важких дірок ∆SO, яка становить 1.8 меВ. Silicon whiskers with doping concentration of 2 × 1018 cm– 3 were chosen to investigate magnetoconductance in the range of 0-14 T at cryogenic temperatures under compressive strain up to – 2 × 10– 3 rel. un. The whiskers were doped with boron during the growth process by chemical vapor deposition method, and the concentration of charge carriers, according to Hall studies, was about 2 × 1018 cm– 3. The uniaxial strain of whiskers was carried out by fixing them to the substrates using thermal strain due to the difference between the coefficients of thermal expansion of the crystal and the substrate material. Longitudinal magnetoresistance for unstrained and strained Si whiskers was studied in the temperature range of 4.2 ÷ 70 K. The unstrained whiskers have a quadratic dependence of the magnetoresistance on the magnetic field induction. The strain leads to the appearance of negative magnetoresistance with sufficiently large magnitude (up to 15 %). The possible reasons of the effect were discussed. The most probable reason of negative magnetoresistance appearance is weak localization (WL) of the charge carriers. According to calculations within the WL model, the coherence length Lφ and spin-orbit length Lso are proportional to T− 0.53 and T− 0.45, respectively. The latter one is closed to T− 1/2 expected from the theoretical data for a twodimensional system. This fact is the evidence of the conclusion that conductance in Si whiskers mostly occurs in the subsurface layers of crystals. Strain influence on spin-orbit splitting and the valence band spectrum was studied. As a result, the splitting of light and heavy hole branches was found under compressive strain according to the k-p-method. The spin splitting energy for sub-band of heavy holes ∆SO was found to be 1.8 meV.

Published

2019

34. Negative magnetoresistance in indium antimonide whiskers doped with tin

Author

Igor Ostrovskii, Anatoliy Druzhynin, Yuriy Khoverko, Natalia Liakh-Kaguy, and Anatoly Druzhinin

Subjects

Materials science, Physics and Astronomy (miscellaneous), Magnetoresistance, Condensed matter physics, Indium antimonide, Whiskers, General Physics and Astronomy, 02 engineering and technology, Dielectric, Atmospheric temperature range, 021001 nanoscience & nanotechnology, 01 natural sciences, chemistry.chemical_compound, chemistry, Impurity, Whisker, 0103 physical sciences, Metal–insulator transition, 010306 general physics, 0210 nano-technology

Abstract

Negative magnetoresistance of InSb whiskers with different impurity concentrations 4.4 × 1016–7.16 × 1017 cm−3 was studied in longitudinal magnetic field 0–14 T in the temperature range 4.2–77 K. The negative magnetoresistance reaches about 50% for InSb whiskers with impurity concentration in the vicinity to the metal–insulator transition. The negative magnetoresistance decreases to 35 and 25% for crystals with Sn concentration from the metal and dielectric side of the transition. The longitudinal magnetoresistance twice crosses the axis of the magnetic field induction for the lightly doped crystals. The behavior of the negative magnetoresistance could be explained by the existence of classical size effect, in particular boundary scattering in the subsurface whisker layer.

Published

2016

35. Nanotexturing of Silicon by Metal-Assisted Chemical Etching

Author

Ye. I. Berezhanskyi, Anatoly Druzhinin, V. Yu. Yerokhov, and Stepan Nichkalo

Subjects

Surface (mathematics), Materials science, Silicon, business.industry, Hybrid silicon laser, Photovoltaic system, chemistry.chemical_element, Substrate (electronics), Converters, Photoelectric effect, Condensed Matter Physics, Isotropic etching, lcsh:QC1-999, chemistry, Electronic engineering, Optoelectronics, General Materials Science, Physical and Theoretical Chemistry, business, lcsh:Physics

Abstract

This paper describes the method of metal assisted chemical etching (MacEtch) as an efficient approach for structuring the silicon surface with the ability to manage effectively the geometric parameters of the structures and their distribution on the surface of substrate. The surface texturing technology was presented and the structured silicon surfaces with regular and irregular types of surfaces have been obtained. This technology can be used for nanotexturing of the surface of silicon photovoltaic converters. The model of photovoltaic converter based on the crater-textured silicon surface with high efficiency was presented. Keywords: silicon nanostructures, photoelectric converter, meatl-asisted chemical etching.

Published

2016

36. Micro- and Nanotextured Silicon for Antireflective Coatings of Solar Cells

Author

Valery Yerokhov, Stepan Nichkalo, Anatoly Druzhinin, and Yevhen Berezhanskyi

Subjects

010302 applied physics, Materials science, Silicon, business.industry, Hybrid silicon laser, chemistry.chemical_element, 02 engineering and technology, Substrate (electronics), 021001 nanoscience & nanotechnology, 01 natural sciences, Isotropic etching, law.invention, Monocrystalline silicon, Anti-reflective coating, Optics, chemistry, law, 0103 physical sciences, Solar cell, Optoelectronics, Crystalline silicon, 0210 nano-technology, business

Abstract

The paper deals with obtaining of textured silicon surfaces by chemical etching. As a result of experiments based on the modification and optimization of obtaining a textured silicon, several methods of chemical texturing of the crystalline silicon surface were developed. It was shown that modified isotropic and anisotropic etching methods are applicable to create a microrelief on the surface of silicon substrate. These methods in addition to their high conversion efficiency can be used for both mono- and multicrystalline silicon which would ensure their industrial use.

Published

2016

37. The Device-Technological Simulation of Local 3D SOI-Structures

Author

V.V. Dovhij, Igor Kogut, Anatoly Druzhinin, and Victor Holota

Subjects

Materials science, Silicon, business.industry, 020209 energy, 0211 other engineering and technologies, chemistry.chemical_element, Transistor array, Silicon on insulator, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, CMOS, chemistry, Si substrate, Hardware_GENERAL, 021105 building & construction, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Wafer, business, Hardware_LOGICDESIGN, Electronic circuit

Abstract

This paper presents the device-technological simulation of local 3D SOI structures. These structures are created by use microcavities under surface of silicon wafer. Is shown that proposed microcavities could be use as a constructive material for CMOS transistor array on the bulk silicon and 3D SOI-CMOS transistor array, as well as the sensitive elements and their combinations. Such structures allow creation and monolithic integration the CMOS, SOI-CMOS circuits and sensitive elements for IC and SoC.

Published

2016

38. Magnetic Properties of Doped Si<B,Ni> Whiskers for Spintronics

Author

Anatoly Druzhinin, Igor Ostrovskii, Yuriy Khoverko, and Sergij Yatsukhnenko

Subjects

010302 applied physics, Materials science, Spintronics, Condensed matter physics, Magnetoresistance, Whiskers, Doping, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, 01 natural sciences, Metal, Percolation, visual_art, 0103 physical sciences, visual_art.visual_art_medium, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, Spin (physics)

Abstract

Study the magnetic properties of Si whiskers, the concentration of which corresponds to a dielectric and metal side of metal-insulator transition, is performed. Percolation laws of the magnetic clusters formation, that is important for development of spintronic devices, are considered.

Published

2016

39. Strain-induced effects in p-type Si whiskers at low temperatures

Author

Roman Koretskii, I. Ostrovskii, Yu. Khoverko, and Anatoly Druzhinin

Subjects

Materials science, Ac frequency, Strain (chemistry), Mechanical Engineering, Whiskers, Analytical chemistry, chemistry.chemical_element, Nanotechnology, Condensed Matter Physics, chemistry, Mechanics of Materials, Electrical resistivity and conductivity, Gauge factor, General Materials Science, Charge carrier, Boron, Electrical impedance

Abstract

In this study, we investigated strain-induced effects in p-type Si whiskers at low temperatures of 4.2–70 K in DC and AC currents. Si whiskers with boron concentrations close to the metal–insulator transition (MIT) were investigated. We determined the influence of strain (up to 5×10 –3 r.u.) on the active and reactive resistivity, thereby detecting inductive and capacity changes. We discuss the low temperature transport of charge carriers in Si boron-doped whiskers. The current was found to pass through the subsurface of the whiskers, which was accompanied by the capture and reemission of charge carriers by Tamm states. A high sensitivity sensor with a gauge factor of GF 4,2K ~15,000 is proposed for the measurement of strain at an AC frequency of 100 kHz at low temperatures, including T =4.2 K.

Published

2015

40. Peculiarities of magnetoresistance in InSb whiskers at cryogenic temperatures

Author

Natalia Liakh-Kaguy, I. Khytruk, I. Ostrovskii, Yuriy Khoverko, Krzysztof Rogacki, and Anatoly Druzhinin

Subjects

Electron mobility, Materials science, Condensed matter physics, Magnetoresistance, Mechanical Engineering, Whiskers, Electron, Atmospheric temperature range, Condensed Matter Physics, Crystallographic defect, Effective mass (solid-state physics), Mechanics of Materials, General Materials Science, Charge carrier

Abstract

The study of the magnetoresistance in InSb whiskers with an impurity concentration in the vicinity to the metal-insulator phase transition, at low temperature range 4.2–77 K, and in fields , with induction up to 14 T , was conducted. The presence of Shubnikov-de Haas oscillations in both transverse and longitudinal magnetoresistance was observed. The following parameters of InSb whiskers were defined: period of oscillations 0.1 Т −1 , cyclotron effective mass of electrons m с ≈ 0.14 m о , concentration of charge carriers 2.3 × 10 17 сm −3 , g -factor g * ≈ 30 and Dingle temperature Т D = 14.5 K. To determine the nature of crystal defects, the electron scattering processes on the short-range potential, caused by interaction with polar and nonpolar optical phonons, piezoelectric and acoustic phonons, static strain centers and ionized impurities in n-InSb whiskers, with defect concentration 2.9 × 10 17 cm −3 , are considered. The temperature dependences of electron mobility in the range 4.2–500 K were calculated.

Published

2015

41. Magnetic susceptibility and magnetoresistance of neutron-irradiated doped SI whiskers

Author

P. G. Litovchenko, I. Ostrovskii, Anatoly Druzhinin, N. T. Pavlovska, Yu.O. Ugrin, Yu.V. Pavlovskyy, Yu. Khoverko, and Krzysztof Rogacki

Subjects

Materials science, Condensed matter physics, Magnetoresistance, Whiskers, Condensed Matter Physics, Magnetic susceptibility, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, Magnetization, Paramagnetism, Impurity, Whisker, Condensed Matter::Superconductivity, Diamagnetism, Condensed Matter::Strongly Correlated Electrons

Abstract

The effect of 8.6·1017 n/cm2 fast neutron irradiation on the magnetic susceptibility and magnetoresistance of Si whiskers with impurity concentration near metal–insulator transition (MIT) has been studied. Neutron irradiated specimens with boron concentration away of MIT are mainly diamagnetic with a small amount of paramagnetic centers originated from dangling bonds on the whisker surface. It has been established that at temperatures near 4.2 K, a significant contribution to the conductivity is made by light charge carriers of low concentration but with high mobility. The as grown whiskers with impurity concentration correspondent to MIT showed hysteresis loops in magnetization at temperature of liquid helium. Besides hysteresis loops in magnetoresistance was observed for whiskers under compression stress at low temperature up to 7 K. The possible reason of the effect can be magnetic interaction between impurities centers in subsurface region of the whisker with the orbital moment of dangle bounds in the whisker core–shell interstices.

Published

2015

42. Spin-Dependent Transport of Charge Carriers in Silicon Microcrystals Doped with Boron and Diluted with Nickel

Author

Igor Ostrovskii, Serhii Yatsukhnenko, Anatoly Druzhinin, and Yuriy Khoverko

Subjects

010302 applied physics, Materials science, Condensed matter physics, Magnetoresistance, Silicon, Doping, Conductance, chemistry.chemical_element, 02 engineering and technology, Atmospheric temperature range, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 021001 nanoscience & nanotechnology, 01 natural sciences, Condensed Matter::Materials Science, Nickel, chemistry, Impurity, Condensed Matter::Superconductivity, 0103 physical sciences, Condensed Matter::Strongly Correlated Electrons, Charge carrier, 0210 nano-technology

Abstract

Negative magnetoresistance of Si p-type whiskers with different impurity concentration $10^{18} - 5\times 10^{18}$ cm−3 which corresponds to the transition of a metal-dielectric in silicon and diluted with nickel were studied in longitudinal magnetic field 0–14 T in the temperature range 4.2–77 K. The large negative magnetoresistance values correspond to hopping conductance on the twice occupied by electrons impurity states. It is established that in order to predict the magnetoresistance of crystals, it is necessary to take into account the polarization component due to the nature of the hopping conductance at low temperatures

Published

2018

43. MSoC device based on SOI-structures

Author

Igor Kogut, Anatoly Druzhinin, Yuriy Khoverko, Victor Holotal, and Anton Lukianchenko

Subjects

Materials science, 05 social sciences, Transistor, Topology (electrical circuits), Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, 021001 nanoscience & nanotechnology, Signal, law.invention, law, Logic gate, Microsystem, 0502 economics and business, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Sensitivity (control systems), 0210 nano-technology, 050203 business & management, Energy (signal processing), Electronic circuit

Abstract

The architecture and topology of microsystem-on-chip for investigation of new structures and device elements is proposed. Realization of microsystem on silicon-on-insulator structures provides the small consumption of energy, increase fast-acting, radiation hardness and wide interval of working temperatures. The unified sensitive element is designed on silicon-on-insulator structures. The changes of informing signal parameters (capacities and/or resistance) are registered by circuits through the change of signal frequency of master supporting clock. The sensitive element has the regulated sensitivity and can be used for measuring of physical values of different type (of pressure, temperature, acceleration).

Published

2018

44. Weak Antilocalization Model of N-Type Bi2Se3 Whiskers

Author

Igor Ostrovskii, Anatoly Druzhinin, Natalia Liakh-Kaguy, and Yuriy Khoverko

Subjects

Superconductivity, Materials science, Magnetoresistance, Condensed matter physics, Whiskers, Doping, 02 engineering and technology, Conductivity, Atmospheric temperature range, 021001 nanoscience & nanotechnology, 01 natural sciences, Electron localization function, 0103 physical sciences, Kondo effect, 010306 general physics, 0210 nano-technology

Abstract

Temperature dependencies of the n-type conductivity Bi 2 Se 3 whiskers doped with palladium Pd dopant to the concentration of $(1\div 2)\times 10^{19}\text{cm}^{-3}$ which correspond to the metal side of the metal-insulator transition (MIT) were studied at low temperatures down to 1.5 K. The sharp drop was revealed on the temperature dependencies of the whiskers resistance at temperature of 5.3 K. The contribution of some effects as an electron localization, Kondo effect and the superconductivity were observed in the temperature range $1.5\div 77\text{K}$ . The magnetoresistance in the n-type conductivity Bi 2 Se 3 whiskers doped with different Pd concentration were measured in the magnetic field $0\div 10\text{T}$ and the same temperature range. The weak antilocalization model was considered as result of the magnetoconductance studies due to surface spin-orbit interaction in the n-type conductivity Bi 2 Se 3 whiskers.

Published

2018

45. 3D MOS-transistor elements in smart-sensors based on SOI-structures

Author

Igor Kogut, Yuriy Khoverko, Victor Holota, and Anatoly Druzhinin

Subjects

Materials science, business.industry, Transistor, Silicon on insulator, Hardware_PERFORMANCEANDRELIABILITY, law.invention, Threshold voltage, law, Logic gate, MOSFET, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, Cylinder, business, Order of magnitude, Hardware_LOGICDESIGN, Voltage

Abstract

In this paper a modified design of the MOS-transistor in the smart-sensors based on SOI-structure is proposed, in which the surface of the subchannel region is made in the form of a cylinder segment oriented along the drain-source areas of the transistor. The dependence of the drain current of such a transistor reaches almost 10−3 μA/μm from the voltage at the outlet at different voltage values at the gate, which is an order of magnitude higher than for similar operating conditions of traditional MON-transistors.

Published

2018

46. Multifunctional sensors based on Si < B, Ni > microcrystals for Harsh environment

Author

Serhii Yatsukhnenko, Yuriy Khoverko, Anatoly Druzhinin, Igor Ostrovskii, and Oleksiy Kutrakov

Subjects

Resistive touchscreen, Materials science, Silicon, Physics::Instrumentation and Detectors, business.industry, Doping, chemistry.chemical_element, Magnetic field, Crystal, Nickel, chemistry, Optoelectronics, business, Boron, Temperature coefficient

Abstract

A sensitive element of a magnetic field sensor with a resistive principle of action was proposed using microcrystals of silicon doped with boron to a concentration of 5 × 1018 cm−3, which corresponds to the metal-insulator transition in silicon with a nickel layer formed on the crystal's surface, as well as the construction of a spin filter whose working capacity is due temperature mode below 100K. Sensitive elements of magnetic field — temperature sensors were created on the basis of microcrystals Si , working at cryogenic temperatures with a thermosensitive element for which temperature coefficient of resistance (TCR) = 20% × K−1. Developed a sensitive elements of magnetic field — deformations sensors with a strain-sensitive element for which K = 165 at a temperature of 4.2 K.

Published

2018

47. Studies piezoresistive properties of n-type conductivity indium antimonide thin layers

Author

Anatoly Druzhinin, Alexey Kutrakov, Natalia Liakh-Kaguy, and I. Maryamova

Subjects

chemistry.chemical_compound, Thin layers, Materials science, chemistry, Gauge factor, Indium antimonide, Doping, Hydrostatic pressure, Analytical chemistry, chemistry.chemical_element, Piezoresistive effect, Indium, Bar (unit)

Abstract

Piezoresistive properties of undoped and doped by tellurium to different concentration InSb thin layers were investigated in wide range of strain (e = ± 1.4 × 10−3 rel. un.). The value of gauge factor is the largest for undoped n-type InSb thin layers and layers doped by concentration of (4 ÷ 7) × 1016 cm−3. On the basis of such layers could be created strain gauges with high sensitivity. The n-type InSb thin layers under hydrostatic pressure up to 5000 bar were studied also. The coefficient of hydrostatic pressure is higher for undoped n-type InSb thin layers with majority concentration (2 + 3) × 1016 cm−3, it equals K h = (25 ÷ 27) × 10−5 bar−1. These layers are perspective materials to design high sensitive pressure sensors.

Published

2018

48. Fabrication and Characterization of High-Performance Anti-reflecting Nanotextured Si Surfaces for Solar Cells

Author

Valeriy Yerokhov, Stepan Nichkalo, Oleksandr Ostapiv, and Anatoly Druzhinin

Subjects

Fabrication, Materials science, business.industry, Nanowire, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Alkali metal, 01 natural sciences, Isotropic etching, 0104 chemical sciences, Characterization (materials science), Absorbance, Reflection (mathematics), Optoelectronics, Wafer, 0210 nano-technology, business

Abstract

Experimental results on application of metal-assisted chemical etching (MACE) method for fabricating different morphologies on the surface of Si wafer, and the comparison of their optical properties in terms to develop structures with low reflectivity and high light absorption are presented. In order to obtain efficient anti-reflecting surfaces, Si nanowire arrays, and complex structures composed of micropyramids obtained by conventional alkali chemical etching and Si nanowires prepared by MACE method on the side faces of pyramids were produced on Si wafers. It was found that micropyramids textured by Si nanowires with an average diameter of 130 nm and 325 nm in height, show the highest absorbance (about 98%) and the lowest reflectance (less than 1%) values in the wavelength range 300-1100 nm. In comparison, the reflection of Si nanowire arrays prepared by MACE method was found to be 4%.

Published

2018

49. Sensor of hydrostatic pressure based on gallium antimonide microcrystals

Author

I. Maryamova, Anatoly Druzhinin, Natalia Liakh-Kaguy, and Alexey Kutrakov

Subjects

Gallium antimonide, chemistry.chemical_compound, Materials science, chemistry, business.industry, sensor, Hydrostatic pressure, Optoelectronics, hydrostatic pressure, lcsh:Electrical engineering. Electronics. Nuclear engineering, gallium antimonide, business, lcsh:TK1-9971

Abstract

Currently, silicon and germanium, the most common materials in the production of discrete semiconductor devices and integrated circuits, do not always meet all the requirements to the sensing elements of mechanical quantities sensors. Therefore, it is logical to research the properties of other semiconductor materials that could be used as sensing elements in such sensors. A3B5 semiconductor compounds seem promising for such purpose. Effect of hydrostatic pressure up to 5000 bar on the resistance of n-type antimonide gallium whiskers doped by Se or Te was studied. Coefficient of hydrostatic pressure for this crystals was determined, it equals Kh = (16,5—20,0)•10–5 bar–1 at 20°N. Temperature dependence of resistance and coefficient Kh for this crystals in the temperature range ±60°N was studied. Design of the developed hydrostatic pressure sensor based on GaSb whiskers and its characteristics are presented. The possibility to decrease the temperature dependence of sensitive element resistance by mounting GaSb whiskers on the substrates fabricated from materials with different temperature coefficient of expansion was examined. It was shown that mounting of GaSb crystals on Cu substrate gives the optimal result, in this case the temperature coefficient decrease to 0,05%•°N–1, that leads to decrease of output temperature dependence. The main advantages of developed pressure sensor are: the simplified design in comparison with pressure sensors with strain gauges mounted on spring elements; the high sensitivity to pressure that is constant in the wide pressure range; the improvement of sensors metrological characteristics owing to hysteresis absence. The possible application fields of developed sensors are measuring of high and extremely high pressure, chemical and oil industries, measuring of pressure in oil bore-holes, investigation of explosive processes.

Published

2015

50. Magneto-transport properties of poly-silicon in SOI structures at low temperatures

Author

Anatoly Druzhinin, Igor Kogut, Yuriy Khoverko, Roman Koretskii, Iurii Kogut, and Igor Ostrovskii

Subjects

Materials science, Magnetoresistance, Silicon, Condensed matter physics, Liquid helium, Mechanical Engineering, chemistry.chemical_element, Conductivity, Condensed Matter Physics, Thermal conduction, law.invention, chemistry, Mechanics of Materials, law, Electrical resistivity and conductivity, General Materials Science, Charge carrier, Nyquist plot

Abstract

Silicon-on-insulator structures are an important material for modern microelectronic devices, in particular, for sensors of various physical values. As the electro-transport properties of such initially polycrystalline dispersed structures vary with the treatment of poly-silicon layer, this will determine, in particular, the device implementation of SOI at low temperatures. In this paper we report on extended AC and DC studies of low-temperature electrical conductivity of SOI-structures with initial boron concentrations in the vicinity to metal–insulator transition (2.4×1018 сm−3 and 4.8×1018 сm−3 for non-recrystallized and recrystallized samples, respectively) and its peculiarities at the influence of high magnetic fields. In particular, together with the results of DC studies of resistivity the observation of negative magnetoresistance at low magnetic fields imply the hopping conductivity of poly-silicon layers at low temperatures (ln ρ~Т−1/4). The study of the properties of poly-silicon layers in SOI structures by impedance analysis method (AC measurements) allowed for determining the effect of material dispersion on its low-temperature conductivity and for separating and identifying the contributions of various microstructure elements in the sample conductivity. In both the DC and AC cases the Mott law hopping conductivity in non-recrystallized poly-Si samples has been confirmed at cryogenic temperatures around liquid helium point. A capacitive type of Nyquist plot in turn supported this assumption. In laser-recrystallized poly-Si layers the charge carrier transport is limited by grain barriers and corresponds rather to percolation type of conduction, obeying the Shklovskii–Efros law.

Published

2015