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Your search keyword '"Physical vapor deposition"' showing total 7 results
Start Over Descriptor "Physical vapor deposition" Publication Type Books
7 results on '"Physical vapor deposition"'

1. Piezoelectric Aluminium Scandium Nitride (AlScN) Thin Films: Material Development and Applications in Microdevices.

Author

Žukauskaitė, Agnė and Žukauskaitė, Agnė

Subjects
Physics, Research & information: general, 5G technology, AlN, AlScN, Lamb-wave resonators, MEMS, PUND test, Q-factor, Raman spectroscopy, SAW devices, ScAlN thin film, X-ray diffraction, alloy scattering, aluminium scandium nitride, aluminum nitride, aluminum nitride (AlN), aluminum scandium nitride, aluminum scandium nitride (AlScN), cantilever beams, coercive field, complementary switchable, diamond thin film, elastic properties, electromechanical coupling coefficient k2, fabrication, fatigue, ferroelectric, ferroelectrics, film, high temperature, laser ultrasound, leakage current, magnetron sputter epitaxy, micromirror, microscanner, n/a, non-metallic substrates, nonvolatile memory, physical vapor deposition, piezoelectric, piezoelectric films, piezoelectric thin films, piezoelectricity, potassium hydroxide (KOH), residual stress, retention, scandium-aluminum nitride, scandium-doped aluminum nitride, sputter deposition, stress, stress gradient, structure analysis, substrate-RF, surface acoustic waves, temperature coefficient, thermal stability, thin film, thin films, wet etch, wurtzite
Abstract

Summary: Recently, aluminium scandium nitride (AlScN) emerged as a material with superior properties compared to aluminium nitride (AlN). Substituting Al with Sc in AlN leads to a dramatic increase in the piezoelectric coefficient as well as in electromechanical coupling. This discovery finally allowed us to overcome the limitations of AlN thin films in various piezoelectric applications while still enabling us to benefit from all of the advantages of the parent material system, such as a high temperature stability, CMOS compatibility, and good mechanical properties. Potential applications include RF filters (bulk acoustic wave (BAW) or surface acoustic wave (SAW) resonators), energy harvesting, sensing applications, and infra-red detectors. The recent progress in MOCVD- and MBE-grown AlScN has led to high-frequency and -power electronics, (high-electron-mobility transistors (HEMTs)). AlScN is the first wurtzite III-nitride where ferroelectric switching was observed, allowing for many new possible applications in semiconductor memories additionally, it enables the additional functionality of switching to applications where piezoelectric materials are already in use. This Special Issue was very successful in covering all of the main aspects of AlScN research, including its growth, the fundamental and application-relevant properties, and device fabrication and characterization. We can see that AlScN technology is mature enough to be utilized in wafer-level material development and complicated devices, but there is still much to discover in terms of deposition process control, anisotropy, and, in particular, ferroelectric behavior.

2. Mechanical Properties of Advanced Metallic Materials.

Author

Zhang, Yang, Chen, Yuqiang, and Zhang, Yang

Subjects
History of engineering & technology, Materials science, Technology: general issues, 2205 duplex stainless steel, 5083/6005A welding joint, A1. dendrite, A1. diffusion, A1. particle pushing, A2. growth from melt, B1. alloys, Cu-Al-Ag alloy, Fe-based alloy, Inconel 718 alloy, SEM, Taguchi, Ti alloy, Ti alloys, accumulative roll bonding (ARB), aluminized high-energy material, aluminum micron powder, biomedical applications, characterization, coating adhesion, contact angle, corrosion mechanism, corrosion model, current, density, energetic material, fatigue life prediction model, ferritic stainless steel, fracture mechanism, graphite, high-manganese steel, high-speed imaging, hot tensile deformation, hybrid composites, laser cladding, laser energy density, laser monitor, laser-based powder bed fusion, low cycle fatigue, martensite, martensitic transformation, mechanical properties, medium-entropy alloy, microhardness, microstructure, microstructure evolution, microwave radiation, molecular dynamics, passive film composition, phase interface, physical vapor deposition, plasma arc cladding technology, potentiodynamic polarization curve, pre-oxidation, precipitate, process optimization, reactive wetting, refractory material, selective laser melting, shape memory alloy (SMA), structural steel, superelasticity, thermal-mechanical alleviation, titanium, titanium alloy, titanium alloys, twin boundary, wear characterization, zirconia, β-phase
Abstract

Summary: We thank all contributors of this Special Issue and the editorial staff of Crystals for helping this Special Issue achieve success; we are especially gratefully to the expert reviewers who agreed to review the papers submitted to this Special Issue for their diligence and timely effort. Under joint efforts, finally, this Special Issue published 15 papers, including 1 review paper and 14 original research papers. These published papers are mainly related to the mechanical properties of superelastic alloys, titanium alloys, shape memory alloys, various kinds of steels, medium-entropy alloys, high-temperature alloys, etc. Under the success of this Special Issue, the published papers will promote the development and progress of advanced metallic materials. We sincerely hope these papers can cause the readers to be informative and inspire them to obtain new ideas.

5. Sensors for Process Monitoring: Coating Processes.

Author

Bouzakis, K.-D., Vidakis, N., and Erkens, G.

Subjects
COATING processes, CHEMICAL vapor deposition, PHYSICAL vapor deposition, MASS spectrometers, LEAK detectors, VACUUM technology
Abstract

The article presents information about sensors used in the surface coating process. Both physical vapor deposition and chemical vapor deposition are extremely sensitive methods and require strict monitoring. The processes require vapor process parameter map, vacuum control, thermocouples, pirani gages, capacitance manometers, penning gages, mass spectrometers, pyrometers, bolometers and leak detectors to ensure that vacuum is maintained.

Published
2001

6. THIN FILMS.

Author

Wasa, Kiyotaka and Setsune, Kentaro

Subjects
THIN films, FERROELECTRIC thin films, PHYSICAL vapor deposition, CHEMICAL vapor deposition, TRANSDUCERS, ELECTRIC equipment
Abstract

The article presents information related to thin films. Thin film ferroelectric materials and hexagonal piezoelectric materials are essential for fabrication of electronic and/or photonic devices. Bulk ferroelectric materials were widely used to manufacture discrete electronic components including ceramics capacitors, band pass filters, resonators, ultrasonic transducers and positive temperature coefficient thermistors. Thin films of ferroelectric materials are fabricated by a thin film deposition process including physical vapor deposition, chemical vapor deposition and chemical solvent deposition.

Published
1999

7. HTS FILM GROWTH.

Author

Char, Kookrin and Matljasevic, Vladimir

Subjects
PHYSICAL vapor deposition, HIGH temperature superconductivity, THIN films, THERMODYNAMICS, THERMODYNAMIC equilibrium, SOLIDS
Abstract

The article presents information on the physical vapor deposition techniques most frequently used for high-temperature superconductivity (HTS) thin film synthesis. The discovery of HTS has led to a rapid development of many different thin film deposition techniques. The article reviews the HTS compounds and methods used to date to prepare these thin films. Film growth is inherently a nonequilibrium process. Nevertheless, thermodynamic stability is important as a driving force for the reactions taking place during growth. HTS compounds possess large unit cells which can have additional complications, such as a wealth of metal-atom defects and oxygen nonstoichiometries.

Published
1999

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