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Material Characterization Techniques For Beginners
Characterization is the most important step in the study of materials. The various techniques used for material characterization gives one the knowledge about structure and properties of materials. The present book titled "Material Characterization Techniques for Beginners" is intended to expose readers to various techniques available for material characterization. The book is divided into four themes, Imaging Techniques, Spectroscopy. Diffraction and Scattering Techniques and Electrical Characterization Techniques. The present book is multidisciplinary and designed to be a complete reference book for students at undergraduate and postgraduate level. The book deals with various techniques available for material characterization under the four themes mentioned above. The principle and working of each technique are explained in a simple and lucid language. Also, it includes the application of these techniques and which technique to be used for a particular study.
Bio-derived Carbon Nanostructures
Bio-derived Carbon Nanostructures: Fundamentals, Synthesis and Applications explores the entire journey, from selecting the right source materials to crafting them into precisely engineered carbon nanostructures with a purpose.Opening with an exploration of raw materials and their structural intricacies, offering readers a profound insight into the transformation of bio-based resources into highly functional carbon nanostructures. These remarkable materials find applications that span energy, environmental solutions, catalysis, and innovative additives. Unveiling the latest technological advancements, this book delves into the exciting realm of emerging applications and the challenges of sca...
Molecular and Laser Spectroscopy
Molecular and Laser Spectroscopy, Advances and Applications: Volume 2 gives students and researchers an up-to-date understanding of the fast-developing area of molecular and laser spectroscopy. This book covers basic principles and advances in several conventional as well as new and upcoming areas of molecular and laser spectroscopy, such as a wide range of applications in medical science, material science, standoff detection, defence and security, chemicals and pharmaceuticals, and environmental science. It covers the latest advancements, both in terms of techniques and applications, and highlights future projections. Editors V.P. Gupta and Yukihiro Ozaki have brought together eminent scien...
Photoacoustic and Photothermal Spectroscopy
Photoacoustic and Photothermal Spectroscopy: Principles and Applications introduces the basic principles, instrumentation and major developments in the many applications of Photoacoustic and Photothermal Spectroscopy over the last three decades. The book explains the processes of sound generation by periodic optical excitation and ultrasonic generation by pulsed laser excitation and describes the workings of photoacoustic cells equipped with microphones and piezoelectric transducers. Photoacoustic imaging (PAI) is one of the fastest-growing imaging modalities of recent times. It combines the advantages of ultrasound and optical imaging techniques. These non-invasive and non-destructive techniques offer many benefits to users by enabling spectroscopy of opaque and inhomogeneous materials, (solid, liquid, powder, gel, gases) without any sample preparation, and more. - Written in a non-mathematical, simple-to-read manner - Presents recent developments in the field, along with the scope of future progress, including up-to-date references - Includes detailed illustrations, such as equipment layout, spectra, experimental setups, tables, photographs, and more
Laser-Induced Breakdown Spectroscopy
Laser induced breakdown spectroscopy (LIBS) is basically an emission spectroscopy technique where atoms and ions are primarily formed in their excited states as a result of interaction between a tightly focused laser beam and the material sample. The interaction between matter and high-density photons generates a plasma plume, which evolves with time and may eventually acquire thermodynamic equilibrium. One of the important features of this technique is that it does not require any sample preparation, unlike conventional spectroscopic analytical techniques. Samples in the form of solids, liquids, gels, gases, plasmas and biological materials (like teeth, leaf or blood) can be studied with al...
Physics Briefs
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