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Raman Scattering on Emerging Semiconductors and Oxides
Raman Scattering on Emerging Semiconductors and Oxides presents Raman scattering studies.It describes the key fundamental elements in applying Raman spectroscopies to various semiconductors and oxides without complicated and deep Raman theories. Across nine chapters, it covers:• SiC and IV-IV semiconductors,• III-GaN and nitride semiconductors,• III-V and II-VI semiconductors,• ZnO-based and GaO-based semiconducting oxides,• Graphene, ferroelectric oxides, and other emerging materials,• Wide-bandgap semiconductors of SiC, GaN, and ZnO, and• Ultra-wide gap semiconductors of AlN, Ga2O3, and graphene. Key achievements from the author and collaborators in the above fields are referred to and cited with typical Raman spectral graphs and analyses.Written for engineers, scientists, and academics, this comprehensive book will be fundamental for newcomers in Raman spectroscopy. Zhe Chuan Feng has had an impressive career spanning many years of important work in engineering and tech, including as a professor at the Graduate Institute of Photonics & Optoelectronics and Department of Electrical Engineering, National Taiwan University, Taipei; establishing the Science Exploring Lab; joining Kennesaw State University as an adjunct professor, part-time; and at the Department of Electrical and Computer Engineering, Southern Polytechnic College of Engineering and Engineering Technology.Currently, he is focusing on materials research for LED, III-nitrides, SiC, ZnO, other semiconductors/oxides, and nanostructures and has devoted time to materials research and growth of III-V and II-VI compounds, LED, III nitrides, SiC, ZnO, GaO, and other semiconductors/oxides. Professor Feng has also edited and published multiple review books in his field, alongside authoring scientific journal papers and conference/proceeding papers.He has organized symposiums and been an invited speaker at different international conferences and universities.He has also served as a guest editor for special journal issues.
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Applied Raman Spectroscopy : Concepts, Instrumentation, Chemometrics, and Life Science Applications
Applied Raman Spectroscopy: Concepts, Instrumentation, Chemometrics, and Life Science Applications synthesizes recent developments in the field, providing an updated overview.The book focuses on the modern concepts of Raman spectroscopy techniques, recent technological innovations, data analysis using chemometric methods, along with the latest examples of life science applications relevant in academia and industries.It will be beneficial to researchers from various branches of science and technology, and it will point them to modern techniques coupled with data analysis methods.In addition, it will help instruct new readers on Raman spectroscopy and hyphenated Raman spectroscopic techniques. The book is primarily written for analytical and physical chemistry students and researchers at a more advanced level who require a broad introductory overview of the applications of Raman spectroscopy, as well as those working in applied industry and clinical laboratories.Students, researchers, and industry workers in related fields, including X-ray and materials science, agriculture, botany, molecular biology and biotechnology, mineralogy, and environmental science will also find it very useful.
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Magneto-Optics and Spectroscopy of Antiferromagnets
Certain magnetic materials have optical properties that make them attractive for a wide variety of applications such as optical switches.This book describes the physics of one class of such magnetooptic materials, the insulating antiferromagnets.The authors summarize recent results concerning the structure, optical properties, spectroscopy, and magnetooptical properties of these materials.In particular, they consider magnetic phase transitions, symmetry effects, the linear magnetooptical effect, magnons, spectroscopic study of spin waves, photoinduced magnetic effects, and the effects of impurities.
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Nanotechnology in Electronics : Materials, Properties, Devices
Nanotechnology in Electronics Enables readers to understand and apply state-of-the-art concepts surrounding modern nanotechnology in electronics Nanotechnology in Electronics summarizes numerous research accomplishments in the field, covering novel materials for electronic applications (such as graphene, nanowires, and carbon nanotubes) and modern nanoelectronic devices (such as biosensors, optoelectronic devices, flexible electronics, nanoscale batteries, and nanogenerators) that are used in many different fields (such as sensor technology, energy generation, data storage and biomedicine). Edited by four highly qualified researchers and professionals in the field, other specific sample topics covered in Nanotechnology in Electronics include: Graphene-based nanoelectronics biosensors, including the history, properties, and fundamentals of graphene, plus fundamentals of graphene derivatives and the synthesis of graphene Zinc oxide piezoelectronic nanogenerators for low frequency applications, with an introduction to zinc oxide and zinc oxide piezoelectric nanogenerators Investigation of the hot junctionless mosfets, including an overview of the junctionless paradigm and a simulation framework of the hot carrier degradation Conductive nanomaterials for printed/flexible electronics application and metal oxide semiconductors for non-invasive diagnosis of breast cancer The fundamental aspects and applications of multiferroic-based spintronic devices and quartz tuning fork based nanosensors. Containing in-depth information on the topic and written intentionally to help with the practical application of concepts described within, Nanotechnology in Electronics is a must-have reference for materials scientists, electronics engineers, and engineering scientists who wish to understand and harness the state of the art in the field.
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What are sound-permeable materials?
Sound-permeable materials are materials that allow sound waves to pass through them easily. These materials do not reflect or absorb sound waves, but instead, they allow the sound to travel through them without much obstruction. Examples of sound-permeable materials include fabrics, acoustic panels, and certain types of foams. These materials are often used in acoustic design to help control and manipulate the transmission of sound in a space.
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How is sound transmitted through solid materials?
Sound is transmitted through solid materials via the vibration of the molecules within the material. When a sound wave hits a solid material, it causes the molecules in the material to vibrate, which in turn transfers the sound energy through the material. The molecules pass the sound energy along by colliding with neighboring molecules, creating a chain reaction of vibrations that carry the sound wave through the solid material. This process allows sound to travel through solids, such as walls, floors, and other objects.
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Why does the sound sound strange?
The sound may sound strange due to various reasons such as interference, distortion, or poor audio quality. Interference from other electronic devices or background noise can disrupt the sound waves, leading to a strange or distorted sound. Additionally, if the audio equipment is not functioning properly or if the sound is being transmitted over a low-quality medium, it can result in a strange sound. Lastly, if the sound is being played at an incorrect speed or pitch, it can also contribute to it sounding strange.
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Where has photonics gone?
Photonics has advanced and expanded into various industries and applications, including telecommunications, healthcare, manufacturing, and defense. It has enabled the development of faster and more efficient communication systems, medical imaging technologies, high-precision manufacturing tools, and advanced military equipment. Photonics has also made significant contributions to renewable energy technologies, such as solar cells and LED lighting. Overall, photonics has become an integral part of modern technology and continues to drive innovation in a wide range of fields.
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3/5 Pcs Automotive Sound Insulation Pads, Automotive Sound Insulation Damping Materials, Used To
3/5 Pcs Automotive Sound Insulation Pads, Automotive Sound Insulation Damping Materials, Used To
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3/5 Pcs Automotive Sound Insulation Pads, Automotive Sound Insulation Damping Materials, Used To
3/5 Pcs Automotive Sound Insulation Pads, Automotive Sound Insulation Damping Materials, Used To
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A Milliliter-Scale Setup for the Efficient Characterization of Multicomponent Vapor-Liquid Equilibria Using Raman Spectroscopy
Vapor-liquid equilibrium (VLE) data are of major importance for the chemical industry.Despite significant progress in predictive methods, experimental VLE data are still indispensable.In this work, we address the need for experimental VLE data.Commonly, the characterization of VLE requires significant experimental effort.To limit the experimental effort, VLE measurements are frequently conducted by synthetic methods which employ samples of known composition and avoid complex analytics and sampling issues.In contrast, analytical methods provide independent information on phase compositions, commonly based on sampling and large amounts of substance. In the first part of this work, we employ a synthetic method, the well-established Cailletet setup, to characterize the high pressure VLE of two promising binary biofuel blends.The Cailletet method serves as a state of the art reference method that enables collecting data of remarkable accuracy.However, extensive infrastructure is needed. In the second part, to avoid extensive infrastructure and overcome limitations of previous methods, we develop a novel analytical milliliter-scale setup for the noninvasive and efficient characterization of VLE: RAMSPEQU (Raman Spectroscopic Phase Equilibrium Characterization).The novel setup saves substance and rapidly characterizes VLE.Sampling and its associated errors are avoided by analyzing phase compositions using Raman spectroscopy.Thereby, volumes of less than 3 ml are sufficient for reliable phase equilibrium measurements.To enable rapid data generation and save substance, we design an integrated workow combining Raman signal calibration and VLE measurement.As a result, RAMSPEQU gives access to up to 15 pT xy-data sets per workday.RAMSPEQU is successfully validated against pure component and binary VLE data from literature. However, mixtures with only two components rarely depict real industrial applications.As the number of experiments increases strongly with a rising number of components, the efficient RAMSPEQU setup seems particularly suited for multicomponent systems.In the third part of this work, we employ the RAMSPEQU setup for the characterization of a quaternary system and its binary subsystems. 22 ml and 105 ml of the binary and quaternary mixtures are sufficient for an extensive VLE characterization. The RAMSPEQU setup and its integrated workow enable the characterization of multicomponent VLE while saving significant amounts of substance and laboratory time.
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Sound-on-sound
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How does the sound sound over HDMI?
The sound over HDMI is typically of high quality, providing clear and crisp audio. HDMI supports high-definition audio formats such as Dolby TrueHD and DTS-HD Master Audio, allowing for immersive surround sound experiences. Additionally, HDMI carries both audio and video signals in a single cable, reducing clutter and simplifying connections. Overall, the sound over HDMI is reliable and delivers an excellent audio experience for home entertainment systems.
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Why does the laptop sound sound strange?
The laptop sound may sound strange due to a variety of reasons. It could be caused by a hardware issue such as a damaged speaker or audio jack, or a software issue such as outdated or corrupted audio drivers. Additionally, the sound may be affected by external factors such as interference from other electronic devices or physical obstructions blocking the speakers. It is important to troubleshoot and identify the specific cause in order to address the issue and improve the sound quality.
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How does the sound of electricity sound?
The sound of electricity can vary depending on the context. In some cases, it can produce a buzzing or humming sound, especially when passing through electrical wires or transformers. This sound is often described as a low, steady noise. In other cases, such as with electrical arcs or sparks, the sound can be more crackling or popping, resembling the sound of static electricity. Overall, the sound of electricity is often characterized by its high-pitched, energetic nature.
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Why is the sound interface producing faulty sound?
The sound interface may be producing faulty sound due to a variety of reasons. It could be a hardware issue such as a loose connection, damaged cables, or a malfunctioning sound card. It could also be a software issue such as outdated drivers, incompatible settings, or conflicting applications. Additionally, the problem could be related to the audio input or output devices themselves, such as a faulty microphone or speakers. Troubleshooting these potential causes can help identify and resolve the issue with the sound interface.
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