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16 results on '"Thin film"'

4. Sustainable Construction of Future: Opportunities and Challenges for Green and Buildings.

Author

Alaloul, Wesam Salah, Alaloul, Wesam Salah, Musarat, Muhammad, and Tayeh, Bassam A.

Subjects
History of engineering & technology, Technology: general issues, AHP, ANN, BIM, COD, DBR, GIS, IR 4.0, LSTM technique, Malaysia, PCA, PRISMA, RHR, RWL, SARIMA, SEM, adsorption, aeronautical industry, air pollution, barriers, causal loop diagram, chemical activation, circular economy, construction industry, construction management, construction sector, construction worker, eco-materials, econometric analysis, economy, efficiency, energy, energy consumption, environmental impact, environmental pollution, error management climate, forecasting, forecasting models, geopolymer concrete, green technology, groundwater quality, health and safety, health hazards, health risk, impact assessment, job stress, lean construction, life cycle, machine learning, marble dust, mediation analysis, motivation, oil palm leaves activated carbon, organic solar cell, pollution, post-disaster reconstruction, prediction, prefabricated construction, productivity, psychological capital, psychosocial, recycled material, resilient supply chain, review, satisfaction, scientometric analysis, seasonality, small contractors, smart buildings, solid waste, structural equation modeling, supply chain management, sustainability, sustainable construction, sustainable supply chain, systems thinking, technical skills, temperature, thin film, time series, trust, visualization, wastewater, workforce diversity
Abstract

Summary: The construction industry is growing rapidly and time has changed the construction methods used. The traditional way of construction is becoming obsolete and technology is taking over. In this case, sustainable construction is the future and the new norm in the construction industry. Although there are various opportunities in this sector, there are also some challenges that exist and hinder productivity. Hence, this reprint covers the opportunities and challenges in sustainable construction.

5. Recent Advances in Thermoelectric Materials for High Efficiency Energy Conversion and Refrigeration.

Author

Mele, Paolo and Mele, Paolo

Subjects
History of engineering & technology, Materials science, Technology: general issues, CTS, Co-Mo metallization layer, Cu2SnS3, Seebeck coefficient, TE performance, calcium cobaltite, chalcogenide, composite, copper tin sulfide, crystal structure, electrical properties, joining, material production, n/a, oxides, porosity, porous thermoelectric materials, powder x-ray diffraction, redox tuning, skutterudite alloy, skutterudites, thermal conductivity, thermal stability, thermoelectric materials, thermoelectricity, thin film
Abstract

Summary: Thermoelectricity is a well-known phenomenon that enables the conversion of heat into electric energy without moving parts. Its exploitation has been widely considered to contribute to the increasing need for energy along with the concerns about the environmental impact of traditional fossil energy sources. In the last few years, significant improvements in the performance of thermoelectric materials have been achieved through chemical doping, solid solution formation, and nanoengineering approaches. Furthermore, the feasibility of flexible, stretchable, and conformable thermoelectric harvesters has been demonstrated and has attracted the interest of an audience from many different fields. However, the path for practical applications of thermoelectrics is still a long one. This Special Issue of Materials intends to bridge the gap between materials science and applications of thermoelectric materials. Many topics are welcome: new thermoelectric compounds; the correlation between material structure and thermoelectric properties; bulk thermoelectric ceramics, oxides, and chalcogenides; bulk thermoelectric alloys and intermetallics; organic and polymeric thermoelectrics; thermoelectric thin films, multilayers, and nanocomposites; theory and modeling; thermal transport and thermal conductivity; applications and devices based on thermoelectric materials; standardization and metrology; and more.

6. Physical Vapor Deposited Biomedical Coatings.

Author

Stan, George E., Stan, George E., and Stuart, Bryan W.

Subjects
Technology: general issues, 3D printing, MAPLE, PEEK, PLD, RF magnetron sputtering, Silicon, ToFSIMS, X-ray diffraction, XPS, antibacterial, antibacterial coatings, bio-coatings, bioactive glass, bioactivity, biological-derived hydroxyapatite coatings, biomimetic coatings, biomimetics, biomimicry, calcium phosphate, calcium phosphates, cancer, cathodic arc deposition, ceramic coatings, coating, copper doping, corrosion resistance, cytocompatibility, food industrial by-products, gallium doping, hydroxyapatite, implant coating, in vivo extraction force, laser deposition, lithium doping, mechanical, medical devices, nanoindentation, orthopedic applications, physical vapour deposition, pulsed DC, pulsed electron deposition, pulsed laser deposition, sputtering, surface modification, thin film, thin films, thin-films, tissue engineering, titanium-based carbonitrides, yttria-stabilized zirconia
Abstract

Summary: The book outlines a series of developments made in the manufacturing of bio-functional layers via Physical Vapour-Deposited (PVD) technologies for application in various areas of healthcare. The scrutinized PVD methods include Radio-Frequency Magnetron Sputtering (RF-MS), Cathodic Arc Evaporation, Pulsed Electron Deposition and its variants, Pulsed Laser Deposition, and Matrix-Assisted Pulsed Laser Evaporation (MAPLE) due to their great promise, especially in dentistry and orthopaedics. These methods have yet to gain traction for industrialization and large-scale application in biomedicine. A new generation of implant coatings can be made available by the (1) incorporation of organic moieties (e.g., proteins, peptides, enzymes) into thin films using innovative methods such as combinatorial MAPLE, (2) direct coupling of therapeutic agents with bioactive glasses or ceramics within substituted or composite layers via RF-MS, or (3) innovation in high-energy deposition methods, such as arc evaporation or pulsed electron beam methods.

7. 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.

8. New Trends in Lithium Niobate. From Bulk to Nanocrystals.

Author

Corradi, Gábor, Corradi, Gábor, and Kovács, László

Subjects
Research & information: general, AFM, BAW resonator, Bethe-Salpeter equation, LNOI, Li diffusion, LiNbO3, LiTaO3, Marcus-Holstein's theory, Monte Carlo simulations, Q-factor, Raman scattering, Raman spectroscopy, TFLN, X-ray diffraction, acoustic, bipolarons, bulk crystals, charge localization, chemical composition, chemical vapor deposition, crystal structure, defect structure and generation, defects, density-functional theory, diluted-magnetic oxides, domain walls, domain-wall conduction, electro-optical devices, electro-optics, electron nuclear double resonance, electron paramagnetic resonance, elemental doping, epitaxy, extended phase matching, extrinsic defects, ferroelectric domains, ferroelectrics, ferromagnetism, high-temperature, hyperfine interactions, impurity, intrinsic defect, intrinsic defects, ion beam analysis, lanthanides, lattice deformation, lattice location, lead-free piezoelectrics, liquid phase epitaxy, lithium, lithium niobate, lithium niobate-tantalate, lithium tantalate, lithium tantalate thin film, lithium vacancy, luminescence, microring resonator, mode-locked laser, molecular beam epitaxy, nanocrystals, nanoparticles, nanopowders, niobate, nonlinear mirror mode locking, optical response, oxide crystals, oxygen vacancies, paramagnetic ion, parametric down-conversion, photon-pair generation, photorefractivity, piezoelectric, piezoresponse force microscopy, polarons, pulsed laser deposition, radiation damage, second harmonic generation, second-harmonic generation, self-trapped electrons, sensor, small polaron hopping, sputtering, strontium titanate, temperature dependence of electroconductivity, thin film, thin film lithium niobate, thin films, transient absorption, varFDTD, whispering gallery resonators, x-cut LN
Abstract

Summary: The present volume "New Trends in Lithium Niobate: From Bulk to Nanocrystals" contains the materials of a Special Issue of the MDPI journal Crystals dedicated to the memory of Prof. Dr. Ortwin F. Schirmer and provides a new synopsis of his research focusing on LiNbO3. It also includes recent developments, exemplifying the continued interest in this outstanding ferroelectric, non-linear optical and holographic crystal as a workhorse for testing and realizing new ideas and applications.This book starts with reviews on intrinsic and extrinsic crystal defects in LiNbO3 of single-crystal, thin-film or nano-powder forms, studied by various optical, magnetic resonance and nuclear methods, clarifying in particular the reasons for the suppression of anion vacancy formation upon thermal reduction, mechano-chemical processing or irradiations of various types. The reviews are followed by research papers on the experimental and theoretical investigation of small polarons, together with recent results on the properties of Li(Nb,Ta)O3 mixed crystals. Among the various contributions dealing with nonlinear optical applications, papers on device development, entangled photon pair generation and thin films on the Lithium Niobate On Insulator (LNOI) platform can also be found.

9. Materials Processing for Production of Nanostructured Thin Films.

Author

Stine, Keith J. and Stine, Keith J.

Subjects
Technology: general issues, ZnO rod arrays, biosensing, concentration, crystal structure, diphosphate-diarsenate, electrical properties, electrospinning, expanded graphite, fabrication, flexible, gold nanostructures, lithography, localized surface plasmon resonance (LSPR), metal-organic framework, molecular weight, n/a, nanofabrication, nanofiber diameter, nanohole array, patterning, plasmonics, poly(ethylene oxide), polydimethylsiloxane, response surface methodology, stretchable, thin film, thin films, transport pathways simulation, tri-sodium citrate
Abstract

Summary: Thin films are important in many of the technologies used every day, impacting major markets for energy, medicine, and coatings. Scientists and engineers have been producing thin films on a wide range of surfaces for many decades but now have begun to explore giving these films new and controlled structures at the nanometer scale. These efforts are part of the new horizons opened by the field of nanoscience and impart novel structures and properties to these thin films. This book covers some of the methods for making these nanostructured thin films and their applications in areas impacting on health and energy usage.

10. Feature Papers in Electronic Materials Section.

Author

Roccaforte, Fabrizio and Roccaforte, Fabrizio

Subjects
Energy industries & utilities, History of engineering & technology, Technology: general issues, 2D materials, 3C-SiC, 4H-SiC, CVD, CVD graphene, Fabry-Perot filter, Ga2O3, GaAs, GaN, GaN-on-diamond, HEMT, InGaAs channel, KOH etching, MOS, MPCVD growth, MoS2, SIMS, Schottky barrier, Schottky diodes, Ti3SiC2, ZnGa2O4, aluminum oxide, arrhythmia detection, binary oxides, bulk growth, cardiovascular monitoring, charge removal rate, chemical vapour deposition, compensation, compliant substrates, cubic silicon carbide, defects, degradation, diamond, diodes, doping, electrical characterization, electron microscopy, energy electronics, epitaxial lift-off, flexible bioelectronics, flexible electronics, gallium oxide, gate dielectric, graphene absorption, heteroepitaxy, high-throughput method, high-κ dielectrics, hybrid integration, instability, insulators, interface, iron-based superconductor, irradiation temperature, material printing, nanomanufacturing, nanomembrane, ohmic contact, optical fibers, power electronics, proton and electron irradiation, pulsed laser deposition, quasi-vertical GaN, radiation effects, radiation hardness, radio frequency sputtering, reliability, silica point defects, silicon carbide, simulation, soft biosensors, spinel, stacking faults, stress, thermal management, thin film, threshold voltage, transistors, transmission electron microscopy, trapping, traps, trench MOS, ultra-wide bandgap, van der Waals, vertical GaN, wearable sensors, wide band gap semiconductors
Abstract

Summary: This book entitled "Feature Papers in Electronic Materials Section" is a collection of selected papers recently published on the journal Materials, focusing on the latest advances in electronic materials and devices in different fields (e.g., power- and high-frequency electronics, optoelectronic devices, detectors, etc.). In the first part of the book, many articles are dedicated to wide band gap semiconductors (e.g., SiC, GaN, Ga2O3, diamond), focusing on the current relevant materials and devices technology issues. The second part of the book is a miscellaneous of other electronics materials for various applications, including two-dimensional materials for optoelectronic and high-frequency devices. Finally, some recent advances in materials and flexible sensors for bioelectronics and medical applications are presented at the end of the book.

13. Real-Time Characterization of Moisture Absorption and Desorption.

Author

He, Y. and Fan, X.J.

Abstract

The traditional method to determine moisture absorption relies on a weight gain measurement metrology with an analytical balance. This approach is generally not suitable for thin samples. In this study, the moisture absorption–desorption behavior of a thin BT core was characterized in situ using a sorption TGA over a temperature range of 30–80°C, in an environment of up to 80% relative humidity. From the experimental results, the moisture diffusivity and the saturated moisture content have been determined. Within the experimental temperature range, the diffusivity can be described by the Arrhenius equation and the activation energy can be calculated. The results obtained are compared with literature data. The impact of moisture diffusion in BT core on the reliability of ultrathin stacked chip scale packages (UT SCSP) was discussed. [ABSTRACT FROM AUTHOR]

Published
2010
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14. Dependency of Micro-mechanical Properties of Gold Thin Films on Grain Size.

Author

Huh, Yong -Hak, Kim, Dong -Iel, Kim, Dong -Jin, Lee, Hae -Moo, and Park, Jun -Hyub

Abstract

Micro-tensile properties of Au thin films with different grain sizes were measured using micro-tensile tests and the effect of grain sizes of the films on the properties was investigated. The micro-tensile specimens 2mm long and 100μm wide were fabricated by electromachining process using the films, deposited on the silicon by sputtering technique, with six different thicknesses ranging from 0.18 to 1.0μm. TEM observations showed the films with the respective different thickness had different grain sizes. As grain size increased, the yield strength decreased and followed the Hall-Petch relation. Furthermore, the yield strength also decreased with increasing the film thickness. Elastic modulus for the gold films was not affected with increase of the film thickness, but the value of the modulus for the film 0.18μm was higher than the values for the thicker film. Tensile strength also showed the dependency of the film thickness. [ABSTRACT FROM AUTHOR]

Published
2009
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15. Flower Petal-like Pattern on Soft Hydrogels during Vodka Spreading.

Author

Kaneko, Daisaku, Furukawa, Hidemitsu, Tanaka, Yoshimi, Osada, Yoshihito, and Gong, Jian Ping

Abstract

Flower petal-like pattern has been observed during Vodka spreading on gel surfaces. Since the spreading kinetics vanishes within a few seconds, the flower petal-like pattern is extremely impressive like shooting-up of fireworks. This pattern can be formed when ethanol/water mixtures having more than %[vol.]25 of ethanol are used as spreading liquid and soft gels with storage modulus less than 104 Pa are used as underlying substrates. The origin of this phenomenon is discussed in terms of instability of leading edge of spreading liquid on soft hydrogels. [ABSTRACT FROM AUTHOR]

Published
2008
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16. Formation and Structure of Coherent, Ultra-thin Calcium Carbonate Films below Monolayers of Stearic Acid at the Oil/Water Interface.

Author

Maas, M., Rehage, H., Nebel, H., and Epple, M.

Abstract

Detailed investigations of interfacial crystallization procedures are important to understand the basic principles of biomineralization processes. These interfacial phenomena can also be used to form new types of biomimetic composite materials. In a series of experiments we studied the influence of Langmuir-monolayers on the formation of ultra-thin calcium carbonate films. We systematically compared experiments performed at the water surface with results obtained at the water/oil interface. For stearic acid monolayers formed at the pure water surface, we were able to observe densely packed dispersions of ultra-thin CaCO3 crystals, which were adsorbed below the surfactant membranes. We analyzed details of these structures by means of Brewster-angle-microscopy and other microscopic techniques. At the oil/water interface, however, we observed the formation of coherent, ultra-thin calcium carbonate films. These extended, two-dimensional crystalline structures were characterized by scanning electron microscopy, X-ray diffraction, and other techniques like interfacial-shear-rheology. [ABSTRACT FROM AUTHOR]

Published
2008
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