Your search keyword '"Low temperature operations"' showing total 20 results

1. Comparison of new SiPM devices for applications in High-Energy physics.

Author

Bonesini, M., De Vecchi, C., Menegolli, A., Prata, M.C., Raselli, G.L., Rossella, M., and Rossini, R.

Subjects

*PHOTODETECTORS, *PHYSICS

Abstract

Silicon Photo-Multipliers (SiPMs) are widely used as light detectors for the new generation of experiments dedicated to high energy physics. This motivates our goal to tested a number of recent devices from different manufacturers: Hamamatsu 13360-1350; Ketek PM1125; ONsemiconductors FC10035 and AdvanSid NUV4S-P. Particular emphasis has been given to measurements of dark counts and gain, performed at different temperatures by means of a climatic chamber (F.lli Galli model Genviro-030LC) within a temperature range from -60 °C to +60 °C. This allowed evaluating the temperature coefficient of all devices, which was found in agreement with expectations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Demonstrating the dual functionalities of CeO2–CuO composites in solid oxide fuel cells

Author

Akbar, M., Tu, Z., Jin, B., Mushtaq, N., He, Z., Dong, W., Wang, B., Wang, X., Xia, Chen, Akbar, M., Tu, Z., Jin, B., Mushtaq, N., He, Z., Dong, W., Wang, B., Wang, X., and Xia, Chen

Abstract

Nowadays, lowering the operating temperature of solid oxide fuel cells (SOFCs) is a major challenge towards their widespread application. This has triggered extensive material studies involving the research for new electrolytes and electrodes. Among these works, it has been shown that CeO2 is not only a promising basis of solid oxide electrolytes, but also capable of serving as a catalytic assistant in anode. In the present work, to develop new electrolytes and electrodes for SOFCs based on these features of CeO2, a new type of functional composite is developed by introducing semiconductor CuO into CeO2. The prepared composites with mole ratios of 7:3 (7CeO2–3CuO) and 3:7 (3CeO2–7CuO) are assessed as electrolyte and anode in fuel cells, respectively. The cell based on 7CeO2–3CuO electrolyte reaches a power outputs of 845 mW cm−2 at 550 °C, superior to that of pure CeO2 electrolyte fuel cell, while an Ce0.8Sm0.2O2-δ electrolyte SOFC with 3CeO2–7CuO anode achieves high power density along with open circuit voltage of 1.05 V at 550 °C. In terms of polarization curve and AC impedance analysis, our investigation manifests the developed 7CeO2–3CuO composite has good electrolyte capability with a hybrid H+/O2− conductivity of 0.1–0.137 S cm−1 at 500–550 °C, while the 3CeO2–7CuO composite plays a competent anode role with considerable catalytic activity, indicative of the dual-functionalities of CeO2–CuO in fuel cell. Furthermore, a bulk heterojunction effect based on CeO2/CuO pn junction is proposed to interpret the suppressed electrons in 7CeO2–3CuO electrolyte. Our study thus reveals the great potential of CeO2–CuO to develop functional materials for SOFCs to enable low-temperature operation. © 2020 Hydrogen Energy Publications LLC, QC 20210607

Published

2021

3. Integration with Light

Subjects

Flexible electronics, Infrared devices, Conductive adhesive, LIFT, Tin alloys, Plastic bottles, Substrates, Electric lamps, SAC-solders, Temperature, Laser printing, Low temperature bonding, Soldering, NIR curing, Lead-free solders, Light emitting diodes, Flip chip devices, Copper alloys, Silver alloys, Adhesives, Light absorption, Surface mount technology, Flip chip bonding, Photonic soldering, Low temperature operations

Abstract

This paper reports the use of Laser-induced Forward Transfer (LIFT) technology for printing of multilayer flexible circuitries and the fabrication of micro-bumps for flip-chip bonding of packaged LEDs and bare die microcomponents. Bonding of passive and functional surface mount devices (SMD) on low-temperature polyethylene terephthalate (PET) foils have been demonstrated using two selective bonding techniques. Firstly, using a high intensity near-infrared (NIR) lamp, a bare die NFC chip was bonded on micro-bumps formed with LIFT printed isotropic conductive adhesive (ICA) within less than a minute. Secondly, using a high intensity Xenon lamp, passive components and packaged LEDs were bonded within 5 seconds on microbumps formed with conventional Sn-Ag-Cu (SAC) lead-free alloys. In the both cases, due to selective light absorption, a limited temperature increase was observed in the PET substrates allowing successful bonding of components onto the delicate polyethylene foil substrates using conventional interconnect materials. © 2018 IEEE.

Published

2018

4. Temperature dependence Raman spectroscopic studies of Pb(Yb0.5Ta0.5)O3

Author

V. Sivasubramanian, Dibyaranjan Rout, and V. Subramanian

Subjects

Chemistry, Phonon, Analytical chemistry, Antiferroelectric materials, Ceramic materials, Low temperature operations, Perovskite, Raman spectroscopy, Lead-based complex perovskites, Phonon modes, Spectral ranges, Crystal structure, Soft modes, Molecular physics, Line width, Spectral line, symbols.namesake, Lattice (order), symbols, Orthorhombic crystal system, Coherent anti-Stokes Raman spectroscopy, Spectroscopy

Abstract

The lead-based complex perovskite Pb(Yb0.5Ta0.5)O3, exhibiting long-range B-site cation ordering has been studied by Raman spectroscopy. The investigation has been performed as a function of temperature ranging from 250 K to a lower temperature 10 K in the spectral range 1020-20 cm-1. The spectra are analyzed through the characteristic parameters: peak position and line width of phonon modes. Significant decrease in the asymmetric phonon line broadening with noticeable shift of the peak positions and appearance of new modes in the Raman spectra at low temperature have been observed. The local distortion in the lattice has been enhanced substantially at low temperature. The splitting of the F2g modes suggests that the orthorhombic phase is stabilized at low temperature. The two F2g modes (60 and 518 cm-1) show soft mode behavior. � 2007 Elsevier B.V. All rights reserved.

Published

2008

5. Low temperature synthesis of SrS:Ce phosphor by carbothermal reduction method: Influence of sulfur and charge compensator on the luminescent properties

Author

M. S. Ramachandra Rao, M. Kottaisamy, and P. Thiyagarajan

Subjects

Photoluminescence, X ray diffraction, Analytical chemistry, Inorganic compounds, chemistry.chemical_element, Phosphor, Crystal structure, Low temperature synthesis, General Materials Science, Chromaticity, Inert gas, Absorption (electromagnetic radiation), Low temperature operations, Luminescent properties, Optical properties, Mechanical Engineering, Carbothermal reduction, Condensed Matter Physics, Sulfur, Phosphors, Charge compensators, chemistry, Mechanics of Materials, Calcination, Luminescence

Abstract

We report here on an ecologically friendly carbothermal reduction method to realize SrS:Ce phosphor. The method effectively reduces the preparation temperature by 100 �C. The effect of sulfur and charge compensator were studied separately and in combination, on the luminescent properties of SrS:Ce phosphor prepared from SrSO4:Ce(SO4)2�4H2O using this method without inert gas or hazardous gas (H2S) environment. To analyze the role of charge compensator on the luminescent emission property of SrS:Ce, various fluxes, viz., NH4Cl, NaCl were used. The synthesized products were characterized by XRD, photoluminescence emission and excitation spectroscopy (PLE). SrS:Ce showed a bright blue-green emission at 480 and 540 nm corresponding to energy bands originating from 2T2g (5d) to 2F7/2, 2F5/2 (4f) of Ce3+ transitions. The characterization results showed the formation of SrS calcined at 900 �C for 5 h with an increase in blue-green luminescence intensity after the addition of sulfur and charge compensator, separately. When the sulfur and NH4Cl were jointly added, the intensity of blue emission was enhanced, whereas, that of green emission was suppressed. The excitation spectrum showed a fundamental absorption of SrS host crystal lattice at 283 nm and Ce3+ absorption at 430 nm respectively. The CIE (Commission International de'Eclairge) chromaticity coordinates of the phosphor are also reported. � 2006 Elsevier Ltd. All rights reserved.

Published

2007

6. A detailed kinetic model for biogas steam reforming on Ni and catalyst deactivation due to sulfur poisoning

Author

Ranjit Bauri, Vinod M. Janardhanan, Sreenivas Jayanti, Olaf Deutschmann, and Srinivas Appari

Subjects

Hydrogen, Process Chemistry and Technology, Inorganic chemistry, chemistry.chemical_element, Catalyst poisoning, Sulfur, Catalysis, Steam reforming, Adsorption, chemistry, Desorption, Catalytic surfaces, Deactivation, Desorption reactions, Detailed kinetic modeling, Reaction parameters, Saturation coverage, Sulfur adsorption, Temperature range, Activation energy, Biogas, Catalyst deactivation, Enzyme kinetics, High temperature operations, Kinetic parameters, Kinetic theory, Low temperature operations, Models, Reforming reactions, Surface reactions, Temperature, Saturation (chemistry)

Abstract

This paper deals with the development and validation of a detailed kinetic model for steam reforming of biogas with and without H2S. The model has 68 reactions among 8 gasphase species and 18 surface adsorbed species including the catalytic surface. The activation energies for various reactions are calculated based on unity bond index-quadratic exponential potential (UBI-QEP) method. The whole mechanism is made thermodynamically consistent by using a previously published algorithm. Sensitivity analysis is carried out to understand the influence of reaction parameters on surface coverage of sulfur. The parameters describing sticking and desorption reactions of H2S are the most sensitive ones for the formation of adsorbed sulfur. The mechanism is validated in the temperature range of 873-1200 K for biogas free from H 2S and 973-1173 K for biogas containing 20-108 ppm H2S. The model predicts that during the initial stages of poisoning sulfur coverages are high near the reactor inlet; however, as the reaction proceeds further sulfur coverages increase towards the reactor exit. In the absence of sulfur, CO and elemental hydrogen are the dominant surface adsorbed species. High temperature operation can significantly mitigate sulfur adsorption and hence the saturation sulfur coverages are lower compared to low temperature operation. Low temperature operation can lead to full deactivation of the catalyst. The model predicts saturation coverages that are comparable to experimental observation. � 2013 Elsevier B.V.

Published

2014

7. A low-temperature facility for Mössbauer and electrical resistivity studies using a closed-cycle helium refrigerator

Author

K.V.S. Rama Rao, M Senthil Kumar, and K.V.S.R. Krishna Reddy

Subjects

Materials science, Iron foil, Vibration isolation assembly, Instrumentation, Mossbauer spectroscopy, Closed cycle helium refrigerator, Refrigerator car, Analytical chemistry, chemistry.chemical_element, Four probe method, Cold heading, Vibrations (mechanical), Closed cycle machinery, Electrical resistivity and conductivity, Top loading chamber, Metal foil, Low temperature operations, Engineering (miscellaneous), Helium, FOIL method, business.industry, Applied Mathematics, Electrical engineering, Helium-3 refrigerator, Bellows, Vibration isolation, chemistry, Electric conductivity measurement, Refrigerators, business

Abstract

A closed-cycle helium refrigerator is utilized for the development of a facility for performing Mossbauer and electrical resistivity studies at low temperatures down to 18 K. This facility includes a vibration isolation assembly in order to isolate the sample holder from the vibrations arising from the cold head of the closed-cycle refrigerator. A top-loading chamber and a set of bellows are used for this purpose. The performance of the system was tested by recording the spectra of natural iron foil at 300 K when the closed-cycle refrigerator was on and when it was off. The typical width of the outer lines of the Fe spectra obtained was 0.26 mm s-1, which indicates the effective isolation of vibration. A facility for electrical resistivity measurements by a four-probe method was also developed for use in the same facility for Mossbauer studies.

Published

1996

8. Low-temperature H2-SCR of NO on a novel Pt/MgO-CeO2 catalyst

Author

Costa, Costas N., Efstathiou, Angelos M., Efstathiou, Angelos M. [0000-0001-8393-8800], Costa, Costas N. [0000-0002-8459-0356], and Κώστα, Κώστας

Subjects

Magnesia, Reducing agent, Inorganic chemistry, chemistry.chemical_element, Heterogeneous catalysis, Catalysis, Reaction rate, Transition metal, Oxidation, Supported-Pt, Transient kinetics, Reaction kinetics, Low temperature operations, NO reduction, General Environmental Science, Platinum, H2-SCR, Chemistry, Process Chemistry and Technology, NO TPD, Selective catalytic reduction, Lean de-NOx, Titration, Chemical Sciences, Catalyst activity, Natural Sciences, Nitrogen oxides, Space velocity

Abstract

The selective catalytic reduction of NO by H2 under strongly oxidizing conditions (H2-SCR) in the low-temperature range of 100-200 °C has been studied over Pt supported on a series of metal oxides (e.g., La2O3, MgO, Y2O3, CaO, CeO2, TiO2, SiO2 and MgO-CeO2). The Pt/MgO and Pt/CeO2 solids showed the best catalytic behavior with respect to N2 yield and the widest temperature window of operation compared with the other single metal oxide-supported Pt solids. An optimum 50 wt% MgO-50wt% CeO2 support composition and 0.3 wt% Pt loading (in the 0.1-2.0 wt% range) were found in terms of specific reaction rate of N2 production (mols N2/gcat s). High NO conversions (70-95%) and N2 selectivities (80-85%) were also obtained in the 100-200 °C range at a GHSV of 80,000 h-1 with the lowest 0.1 wt% Pt loading and using a feed stream of 0.25 vol% NO, 1 vol% H2, 5 vol% O2 and He as balance gas. Addition of 5 vol% H2O in the latter feed stream had a positive influence on the catalytic performance and practically no effect on the stability of the 0.1 wt% Pt/MgO-CeO2 during 24 h on reaction stream. Moreover, the latter catalytic system exhibited a high stability in the presence of 25-40 ppm SO2 in the feed stream following a given support pretreatment. N2 selectivity values in the 80-85% range were obtained over the 0.1 wt% Pt/MgO-CeO2 catalyst in the 100-200 °C range in the presence of water and SO2 in the feed stream. The above-mentioned results led to the obtainment of patents for the commercial exploitation of Pt/MgO-CeO2 catalyst towards a new NOx control technology in the low-temperature range of 100-200 °C using H2 as reducing agent. Temperature-programmed desorption (TPD) of NO, and transient titration of the adsorbed surface intermediate NOx species with H2 experiments, following reaction, have revealed important information towards the understanding of basic mechanistic issues of the present catalytic system (e.g., surface coverage, number and location of active NOx intermediate species, NOx spillover). © 2006 Elsevier B.V. All rights reserved. 72 3-4 240 252 Cited By :101

Published

2007

9. Forward-looking IVUS imaging using an annular-ring CMUT array

Author

Fahrettin Levent Degertekin, Rasim Guldiken, Mustafa Karaman, Işık Üniversitesi, Mühendislik Fakültesi, Elektrik-Elektronik Mühendisliği Bölümü, Işık University, Faculty of Engineering, Department of Electrical-Electronics Engineering, and Karaman, Mustafa

Subjects

Capacitive micromachined, CMOS process, Materials science, Catheters, Parasitic capacitance, Ultrasonic transducers, Imaging tests, Capacitive micromachined ultrasonic transducers, Optics, Biomembranes, Antenna arrays, Center frequency, Low temperature operations, Pulse measurements, Interconnection, Semiconductor device measurement, Signal to noise ratio, business.industry, Ultrasonic imaging, Electrical engineering, Temperature, Annular ring arrays, Frequency, CMOS integrated circuits, CMOS technology, Forward looking imaging, Imaging systems, Signal-to-noise ratio (imaging), CMOS, Pulse echo measurements, Forward looking, Ultrasonic sensor, business

Abstract

A 64-element, 1.15mm diameter annular-ring CMUT array was characterized and used for forward-looking IVUS imaging tests. The array was manufactured using low temperature processes suitable for CMOS electronics integration on a single chip. The 43×140µm2 array element has suitable view angle for forward looking imaging around 15MHz center frequency and pulse-echo measurements show nearly 100% fractional bandwidth around 17MHz. For imaging and SNR measurements, RF A-scan data sets from various targets were collected using an interconnect scheme forming a 32-element array configuration. The results demonstrate that annular-ring CMUT arrays fabricated with CMOS compatible processes are capable of forward-looking IVUS imaging. Publisher's Version

Published

2005

10. Low-cost millimeter-wave transceiver module using SMD packaged MMICs

Subjects

Transceivers, Substrates, Surface mount assembly for communication k-band systems (SMACKS), Physics, Electrical parameters, Millimeter waves, Substrate materials, Communication systems, Electric lines, Frequencies, Surface mount technology, Microwaves, Low temperature operations, Organic package

Abstract

This paper presents a novel approach to realize low-cost millimeter-wave modules using only SMD packaged MMICs integrated on a single organic substrate. This approach is demonstrated on a 38 GHz transceiver module for point-to-point LMDS communication systems. The required SMD package technology and demonstrator have been developed in the 5th framework European IST project "Surface Mount Assembly for Communication K-band Systems" (SMACKS). Two types of SMD packages have been developed based on LTCC technology for the low-power devices and an organic package for the high-power amplifier. The use of only packaged devices enables low-cost module manufacturing without the need for specialized equipment and without yield loss from handling bare die MMICs. The estimated cost reduction of such a module, with respect to a module using bare die components and mixed substrate technologies, is around 20%. A disadvantage of this approach is that the density of integration is low, since each active device is housed in its own package.

Published

2004

11. Low-cost millimeter-wave transceiver module using SMD packaged MMICs

Author

Heijningen, M. van and Gauthier, G.

Subjects

Transceivers, Substrates, Surface mount assembly for communication k-band systems (SMACKS), Physics, Electrical parameters, Millimeter waves, Substrate materials, Communication systems, Electric lines, Frequencies, Surface mount technology, Microwaves, Low temperature operations, Organic package

Abstract

This paper presents a novel approach to realize low-cost millimeter-wave modules using only SMD packaged MMICs integrated on a single organic substrate. This approach is demonstrated on a 38 GHz transceiver module for point-to-point LMDS communication systems. The required SMD package technology and demonstrator have been developed in the 5th framework European IST project "Surface Mount Assembly for Communication K-band Systems" (SMACKS). Two types of SMD packages have been developed based on LTCC technology for the low-power devices and an organic package for the high-power amplifier. The use of only packaged devices enables low-cost module manufacturing without the need for specialized equipment and without yield loss from handling bare die MMICs. The estimated cost reduction of such a module, with respect to a module using bare die components and mixed substrate technologies, is around 20%. A disadvantage of this approach is that the density of integration is low, since each active device is housed in its own package.

Published

2004

12. Numerical study of the spherically symmetric Gross-Pitaevskii equation in two space dimensions

Author

Sadhan K. Adhikari and Universidade Estadual Paulista (Unesp)

Subjects

Atoms, Oscillations, Ground state, Electrodynamics, FOS: Physical sciences, Electronic density of states, Condensed Matter - Soft Condensed Matter, Space (mathematics), Electron transport properties, Schrödinger equation, law.invention, symbols.namesake, Ground state wave function, law, Trap energy, Boundary value problem, Bose Einstein condensate, Low temperature operations, Boson, Physics, Condensed Matter::Quantum Gases, Condensed Matter::Other, Dilute bosonic atoms, Computational Physics (physics.comp-ph), Nonlinear equations, Schrodinger equation, Nonlinear system, Gross–Pitaevskii equation, Amplitude, Classical mechanics, Quantum electrodynamics, symbols, Soft Condensed Matter (cond-mat.soft), Electron traps, Repulsive interatomic interactions, Physics - Computational Physics, Bose–Einstein condensate, Gross-Pitaevskii equation

Abstract

We present a numerical study of the time-dependent and time-independent Gross-Pitaevskii (GP) equation in two space dimensions, which describes the Bose-Einstein condensate of trapped bosons at ultralow temperature with both attractive and repulsive interatomic interactions. Both time-dependent and time-independent GP equations are used to study the stationary problems. In addition the time-dependent approach is used to study some evolution problems of the condensate. Specifically, we study the evolution problem where the trap energy is suddenly changed in a stable preformed condensate. In this case the system oscillates with increasing amplitude and does not remain limited between two stable configurations. Good convergence is obtained in all cases studied., Comment: 9 latex pages, 7 postscript figures, To appear in Phys. Rev. E

Published

2000

13. Isothermal vapour-phase epitaxy of mercury-cadmium telluride (Hg,Cd)Te

Author

Z. Djuric

Subjects

Metallorganic vapor phase epitaxy, Interdiffusion, Fabrication, Materials science, Electric properties, Annealing (metallurgy), Nanotechnology, Isothermal vapor phase epitaxy, 02 engineering and technology, Epitaxy, 01 natural sciences, 7. Clean energy, Isothermal process, Annealing, Diffusion, chemistry.chemical_compound, Semiconducting tellurium compounds, Telluride, 0103 physical sciences, Phase diagrams, Epitaxial growth, Mercury cadmium telluride, Electrical and Electronic Engineering, Composition homogenization, Low temperature operations, Phase diagram, 010302 applied physics, Mathematical models, Optical properties, business.industry, Doping, Detectors, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Mercury-cadmium telluride, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, High temperature operations, chemistry, Optoelectronics, 0210 nano-technology, business, Molecular beam epitaxy

Abstract

Isothermal vapour-phase epitaxy (ISOVPE) was the earliest process to be developed for the fabrication of epitaxial mercury-cadmium telluride layers. Although the process was somewhat neglected in the previous period, mostly because of the appearance of metalorganic chemical vapour phase epitaxy and molecular-beam epitaxy, the results of the most recent investigations show that the application of this method can be expected in the second generation of photovoltaic (PV) or metal-insulator-semiconductor (MIS) detectors in the focal plane. This review paper presents the development of ISOVPE giving a complete theoretical model of the process, which is based on fundamental results in the field of phase diagrams of the (Hg,Cd)Te the interdiffusion of Hg and Cd, gas-phase transport, etc. Using the results of this theoretical model, a production system for ISOVPE was designed, in which the deposition process, the high-temperature annealing for composition homogenization and the low-temperature annealing for the achievement of the desired epitaxial-layer doping are all performed in the same cycle. Finally, the basic electrical and optical characteristics of ISOVPE layers are analysed. It is shown that in applications of the fabrication of PV and MIS detector arrays a full affirmation of this technology can be expected.

Published

1995

14. High-temperature resistivity and thermopower studies on substituted Bi-2212 and Bi-2201 systems

Author

U.V. Varadaraju and V. Ponnambalam

Subjects

Superconductivity, Materials science, High-temperature superconductivity, Analytical chemistry, Energy Engineering and Power Technology, Activation energy, Condensed Matter Physics, Variable-range hopping, Electronic, Optical and Magnetic Materials, law.invention, Electrical resistivity and conductivity, law, Seebeck coefficient, Figure of merit, Electrical and Electronic Engineering, Crystallization, Bismuth compounds, Copper oxides, High temperature properties, Low temperature operations, Thermal effects, Thermal variables measurement, High temperature resistivity, Oxygen stoichiometry, Semiconducting phase, Thermally activated hopping, Thermopower, Variable range hopping, High temperature superconductors

Abstract

The resistivity (ϱ) and thermopower ( S ) of semiconducting phases in the system Bi 2 Sr 2 Ca 1− x Y x Cu 2 O 8+δ and Bi 2 Sr 2− x La x CuO 6+δ have been measured in the temperature ranges 300–700 K and 300–1000 K respectively. The values of ϱ and S at any temperature increase with increase in x . Both systems show thermally activated hopping at low temperatures (300–450 K) with the activation energy increasing with x . The figure of merit ( S 2 σ/λ) peaks to a maximum value of 1.9×10 -5 WK -2 m -1 at x =0.7 in the Bi-2212 system.

Published

1994

15. Effect of oxide additives on T c behaviour of Bi2�1Sr1�93Ca0�97Cu2O8 system

Author

U.V. Varadaraju and P. Sumana Prabhu

Subjects

Materials science, Oxide, Mineralogy, Sintering, chemistry.chemical_compound, Chemical engineering, chemistry, Mechanics of Materials, Electrical resistivity and conductivity, Phase (matter), Degradation (geology), General Materials Science, Composition, Composition effects, Degradation, Electric conductivity, High temperature superconductors, Low temperature operations, Magnetic permeability, Oxide superconductors, Oxides, Superconducting transition temperature, X ray diffraction, Additive effects, Mole, Oxide additives, Single phase, Additives

Abstract

We have carried out studies on the effect of oxide additives (Ca0�85Sr0�15CuO2, BaBiO3 and BaPbO3) on Bi-2212. Compositions up to 6 mole% of all the additives have been prepared and characterized by XRD, resistivity and ac susceptibility techniques. XRD studies indicate that all the materials are single phase. Resistivity and ac susceptibility studies indicate enhanced granular behaviour with the oxide additives. Low temperature (400�) sintering results in degradation of the Bi-2212 phase in the presence of the additives. ? 1994 Indian Academy of Sciences.

Published

1994

16. A CONDUCTIVITY MODULATED POLYSILICON THIN-FILM-TRANSISTOR

Author

KUMAR, A., SIN, JKO, WONG, M., POON, VMC, KUMAR, A., SIN, JKO, WONG, M., and POON, VMC

Abstract

This paper reports a novel high voltage Conductivity Modulated Thin-Film Transistor (CMTFT) fabricated using polycrystalline silicon, The transistor uses the idea of conductivity modulation in the offset region to obtain a significant reduction in on-state resistance, Experimental on-state and off-state current-voltage characteristics of the CMTFT have been compared,vith those of the conventional offset drain device, Results show that the CMTFT has six times to more than three orders of magnitude higher on-state current handling capability for operating at drain voltages ranging from 15 V to 5 V while still maintaining low leakage current and providing even faster switching speed, The CMTFT devices can be fabricated using a low temperature process (620 degrees C) which is highly desirable for large area electronic applications.

Published

1995

17. Isothermal vapour-phase epitaxy of mercury-cadmium telluride (Hg,Cd)Te

Author

Đurić, Zoran G. and Đurić, Zoran G.

Abstract

Isothermal vapour-phase epitaxy (ISOVPE) was the earliest process to be developed for the fabrication of epitaxial mercury-cadmium telluride layers. Although the process was somewhat neglected in the previous period, mostly because of the appearance of metalorganic chemical vapour phase epitaxy and molecular-beam epitaxy, the results of the most recent investigations show that the application of this method can be expected in the second generation of photovoltaic (PV) or metal-insulator-semiconductor (MIS) detectors in the focal plane. This review paper presents the development of ISOVPE giving a complete theoretical model of the process, which is based on fundamental results in the field of phase diagrams of the (Hg,Cd)Te the interdiffusion of Hg and Cd, gas-phase transport, etc. Using the results of this theoretical model, a production system for ISOVPE was designed, in which the deposition process, the high-temperature annealing for composition homogenization and the low-temperature annealing for the achievement of the desired epitaxial-layer doping are all performed in the same cycle. Finally, the basic electrical and optical characteristics of ISOVPE layers are analysed. It is shown that in applications of the fabrication of PV and MIS detector arrays a full affirmation of this technology can be expected.

Published

1995

18. A Conductivity Modulated Polysilicon Thin-Film Transistor

Author

Kumar, K.P.A., Sin, JKO, Wong, Man, Poon, V.M.C., Kumar, K.P.A., Sin, JKO, Wong, Man, and Poon, V.M.C.

Abstract

This paper reports a novel high voltage Conductivity Modulated Thin-Film Transistor (CMTFT) fabricated using polycrystalline silicon, The transistor uses the idea of conductivity modulation in the offset region to obtain a significant reduction in on-state resistance, Experimental on-state and off-state current-voltage characteristics of the CMTFT have been compared,vith those of the conventional offset drain device, Results show that the CMTFT has six times to more than three orders of magnitude higher on-state current handling capability for operating at drain voltages ranging from 15 V to 5 V while still maintaining low leakage current and providing even faster switching speed, The CMTFT devices can be fabricated using a low temperature process (620 degrees C) which is highly desirable for large area electronic applications.

Published

1995

19. A changed state of silver nanoparticles upon the adsorption of acrylic acid and low-temperature treatment

Author

Kononova E.A., Nguyen N., Mikhalenko I.I., Kononova E.A., Nguyen N., and Mikhalenko I.I.

Abstract

Plasma-resonance absorption spectra of silver hydrosol were recorded and analyzed to estimate the influences of acrylic acid (AA) as an additive and subsequent low-temperature treatment (LTT) of the sol at 77 K on the state of silver nanoparticles. It was found that AA adsorbs in two forms with different orientations of its molecules. Low-temperature treatment resulted in aggregation of particles because of their more defective surfaces, which is characterized by the damping factor of plasmon vibrations. In the adsorption of AA, the damping factor also increases, but the cryoaggregation of particles decreases. © 2008 MAIK Nauka.

20. Changes in the state of silver sol particles after low-temperature treatments

Author

Kononova E.A., Mikhalenko I.I., Yagodovskii V.D., Kononova E.A., Mikhalenko I.I., and Yagodovskii V.D.

Abstract

The influence of the low-temperature treatment of Ag hydrosol on the properties of silver particles was studied by electron absorption spectroscopy over the temperature range 77-230 K. Low-temperature treatment caused the aggregation of particles because of an increase in the number of defects on the surface of Ag observed as an increase in the damping coefficient of electron plasma oscillations. These processes depended on the temperature and initial concentration of disperse silver. Defect formation is explained taking into account the tunnel mechanism of the interaction of low-atomic mobile H +(H2O) n and OH-(H2O) n clusters with the surface of silver particles at low temperatures. © 2008 MAIK Nauka.