Understanding Carbon Nanotubes : From Basics to Applications
Presents the foundations of carbon nanotube science including the most recent developments and the prospects for technological applications. Each chapter begins with a tutorial introduction to the relevant interdisciplinary topics from physics, chemistry or materials science. These summaries of the essential background knowledge are followed by detailed presentations of specific issues. The latter include: polymorphism of carbon and the microstructure of its phases; synthesis methods and growth mechanisms; structural analysis by electron microscopy; spectroscopic methods; electronic structure; transport; mechanical and surface properties of nanotubes and composites.
Transmission Electron Microscopy and Diffractometry of Materials
This book explains concepts of transmission electron microscopy (TEM) and x-ray diffractometry (XRD) that are important for the characterization of materials. The third edition has been updated to cover important technical developments, including the remarkable recent improvement in resolution of the TEM.
Transmission Electron Microscopy : Physics of Image Formation
Transmission Electron Microscopy: Physics of Image Formation presents the theory of image and contrast formation, and the analytical modes in transmission electron microscopy. The principles of particle and wave optics of electrons are described. Electron-specimen interactions are discussed for evaluating the theory of scattering and phase contrast. Also discussed are the kinematical and dynamical theories of electron diffraction and their applications for crystal-structure analysis and imaging of lattices and their defects. X-ray microanalysis and electron energy-loss spectroscopy are treated as analytical methods. Specimen damage and contamination by electron irradiation limits the resolution for biological and some inorganic specimens.
The Fish Oocyte : from basic studies to biotechnological applications
Addresses the growing needs in deciphering the biological processes associated with fish reproduction, in view of the growth of aquaculture and the dwindling natural stocks of commercially important fish. It presents a comprehensive overview on egg production in fish, from the standpoint of the oocyte. With this view in mind, the book includes chapters on oocyte development (oogenesis), hormonal regulation and hormone receptors, formation of the egg envelopes, growth, accumulation of nutrients and maternal transcripts, maturation, hydration, ovulation and fertilization. A special emphasis is placed on using state-of-the-art tools including electron microscopy for discerning the ultra-structure of the follicle and genomic/proteomic tools to fully understand biological basis of fish reproduction.
Tau protein : Methods and protocols
Explores the latest advancements and techniques to study Tau protein that include basic and advanced methods and protocols from in vitro assays to in vivo models that address the molecular and functional aspects of tau physiopathology and many of its related technical issues. The chapters in this book are organized into five parts: Part One describes conformational and functional studies of native tau protein using wet and non-wet lab protocols. Part Two looks at in vitro methods to monitor or control the formation of Tau oligomers and fibrils, and the fibrillization process. Part Three provides protocols for the characterization and in vitro introduction of post-translational modifications in Tau protein for further functional studies. Part Four describes analytical tools for the detection of Tau proteins under various forms, factors associated with Tau pathology, and MAPT gene studies. Finally, Part Five explores cellular and in vivo models for the investigations of Tau physiopathology. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Stedings and Virághs Scanning Electron Microscopy Atlas of the Developing Human Heart
Comprises a complete and extensive exposure of the spatial and temporal aspects of human cardiac development as seen with scanning electron microscopy.
Sliding Filament Mechanism in Muscle Contraction : Fifity Years of Research
Sliding Filament Mechanism in Muscle Contraction: Fifty Years of Research covers the history of the sliding filament mechanism in muscle contraction from its discovery in 1954 by H.E. Huxley through and including modern day research. Chapters include topics in dynamic X-ray diffraction, electron microscopy, muscle mechanisms, in-vitro motility assay, cardiac versus smooth muscle, motile systems, and much more.
Serosal Membranes (Pleura, Pericardium, Peritoneum) : Normal Structure, Development and Experimental Pathology
We strictly de?ned and nominated the main structures of the lymphatic regions as lymphatic units, stomata, and LL. Several different types of vascularization of omental and extraomental (medias- nal pleura and lesser pelvis) MS are observed after India ink application. Human and animal differences in their location, mesothelial covering, the vessel (blood and lymphatic) supply, free and connective tissue cells and their arrangement are discussed.
Self Healing Materials : An Alternative Approach to 20 Centuries of Materials Science
This book, the first in this new field of materials science, aims to present a coherent picture of the design principles and resulting properties of self healing materials over all material classes, and to offset them to the current design principles for structural materials with improved mechanical properties. Where appropriate a comparison to natural materials is made. As such it will be a landmark and a reference work in the coming years. The book consists of a number of invited contributions from leading experts in the field. While each chapter describes a separate approach or a different aspect of self healing materials, the common structure of each chapter creates a coherent and consistent picture of this emerging and challenging field. Hence the book is not only a valuable asset for professional materials scientists but it is also suitable as a text book for courses at MSc level.
Science of Microscopy
New forms of imaging in science have nearly always led to major advances, especially at the nanoscale, and the pace of these developments has increased dramatically in recent decades. Many new types of microscopes have joined the traditional light microscope and the transmission and scanning electron microscopes during the past two decades. In the present volumes, a group of experts present comprehensive reviews of these new instruments and new versions of the older ones as well as associated techniques and draw attention to their principal areas of application. Numerous subjects are benefiting from these new tools, including semiconductor physics, medicine, molecular biology, the nanoworld in general, magnetism, and ferroelectricity. Science of Microscopy will be an indispensable guide to a wide range of scientists in university laboratories as well as to engineers and scientists in industrial R&D departments.
Scanning Microscopy for Nanotechnology : Techniques and Applications
Scanning electron microscopy (SEM) can be exploited not only for nanomaterials characterization but also integrated with new technologies for in-situ nanomaterials engineering and manipulation. Scanning Microscopy for Nanotechnology addresses the rapid development of these techniques for nanotechnology, in both technique and application chapters by leading practitioners. The book covers topics including nanomaterials imaging, X-ray microanalysis, high-resolution SEM, low kV SEM, cryo-SEM, as well as new techniques such as electron back scatter diffraction (EBSD) and scanning transmission electron microscopy (STEM). Fabrication techniques integrated with SEM, such as e-beam nanolithography, nanomanipulation, and focused ion beam nanofabrication, are major new dimensions for SEM application.
Ribosome biogenesis : Methods and protocols
This volume provides comprehensive reviews and describes the latest techniques to study eukaryotic ribosome biogenesis. For more than 50 years ribosomes are a major research topic. Our knowledge about ribosome biogenesis and function such as transcription, mRNA modification, and translation was the sine qua non for developing the powerful RNA-based vaccines against RNA-viruses causing the world-threatening Covid-19 pandemia. The chapters in this book are organized into six parts. Part One discusses a comparative survey about the unity and diversity of ribosome biogenesis in pro- and eukaryotic cells. Part Two deals with the genomic organization of eukaryotic rDNA and the role of RNA polymerase I in ribosomal RNA transcription. Part Three explores in vitro methods to study RNA polymerase I structure and its function, and Part Four analyzes the nucleo-cytoplasmic transport of assembled ribosomes and RNP complexes. Part Five covers modifications that increase the complexity of rRNAs, and Part Six provides readers with a review of eukaryotic translation and - for the first time - describes a new method to analyze translation in vitro.
Rare Earth Oxide Thin Films : Growth, Characterization, and Applications
In the book the state-of-the-art of thin film deposition techniques as well as the structural, physical, chemical, and electrical properties of thin RE oxide films and of their interface with semiconducting substrates are discussed.
Radiation Effects in Solids
The purpose of this Course was to provide ASI students with a comprehensive overview of fundamental principles and relevant technical issues associated with the behavior of solids exposed to high-energy radiation. These issues are important to the development of materials for existing fission reactors or future fusion and advanced reactors for energy production; to the development of electronic devices such as high-energy detectors; and to the development of novel materials for electronic and photonic applications (particularly on the nanoscale).
Protein misfolding, aggregation and conformational diseases ; Part A : Protein aggregation and conformational diseases
Protein Misfolding, Aggregation, and Conformational Disease, is the first book to discuss significant achievements in protein structure-function relationships in the areas of biochemistry, molecular biology and molecular medicine. This volume summarizes recent achievements in the understanding of the relationships between protein misfolding, aggregation and development of protein deposition disorders.
Polymer Microscopy
Polymer Microscopy, Third Edition, is a comprehensive and practical guide to the study of the microstructure of polymers, and is the result of the authors' many years of academic and industrial experience.
Polyelectrolytes and Nanoparticles
Guides chemists through demonstrations of synergistic effects between polyelectrolytes and nanoparticles. After a short introduction into the field of polyelectrolytes and polyelectrolyte characterization, the role of polyelectrolytes in the process of nanoparticle formation is discussed in more detail. However, polyelectrolytes can directly influence the growing of nanoparticles and also can stabilize the nanoparticles formed. Therefore, the nanoparticle formation in polyelectrolyte-modified template phases, e.g. microemulsions, is of growing interest. Finally, methods for characterization of the polyelectrolyte-modified nanoparticles are explained. The adsorption of polyelectrolytes can be detected by measuring the zeta potential at the nanoparticle surface by means of electrophoretic light scattering, acoustophoresis or streaming potential measurements.
Polycomb group proteins : Methods and protocols
Explores the latest technologies used in the Polycomb Group of proteins field and helps scientists--working on PcG proteins--investigate all functions of PcG proteins in diverse cellular contexts. The chapters in this book cover topics such the distribution of histone marks by CUT&Tag in Drosophila embryos; Co-IP in mammalian cells; replication timing of gene loci in different cell cycle phases; STORM and electronmicroscopy and relative data analysis; and polycomb mediated epigenetic modification in spheroids.
Physics of the Life Sciences
Originally developed for the author's course at Union College, this text is designed for life science students who need to understand the connections of fundamental physics to modern biology and medicine. Almost all areas of modern life sciences integrally involve physics in both experimental techniques and in basic understanding of structure and function. Physics of the Life Sciences is not a watered-down, algebra-based engineering physics book with sections on relevant biomedical topics added as an afterthought. This authoritative and engaging text, which is designed to be covered in a two-semester course, was written with a thoroughgoing commitment to the needs and interests of life science students.
Physical Principles of Electron Microscopy : An Introduction to TEM, SEM, and AEM
Scanning and stationary-beam electron microscopes have become an indispensable tool for both research and routine evaluation in materials science, the semiconductor industry, nanotechnology, and the biological and medical sciences. Physical Principles of Electron Microscopy provides an introduction to the theory and current practice of electron microscopy for undergraduate students who want to acquire an appreciation of how basic principles of physics are utilized in an important area of applied science, and for graduate students and technologists who make use of electron microscopes. At the same time, this book will be equally valuable for university teachers and researchers who need a concise supplemental text that deals with the basic principles of microscopy.



















