Listing 1 - 10 of 52 | << page >> |
Sort by
|
Choose an application
Choose an application
X-ray absorption fine structure spectroscopy (XAFS) is a powerful and versatile technique for studying structures of materials in chemistry, physics, biology and other fields. This textbook is a comprehensive, practical guide to carrying out and interpreting XAFS experiments. Assuming only undergraduate-level physics and mathematics, the textbook is ideally suited for graduate students in physics and chemistry starting XAFS-based research. It contains concise executable example programs in Mathematica 7. Supplementary material available at www.cambridge.org/9780521767750 includes Mathematica code from the book, related Mathematica programs, and worked data analysis examples. The textbook addresses experiment, theory, and data analysis, but is not tied to specific data analysis programs or philosophies. This makes it accessible to a broad audience in the sciences, and a useful guide for researchers entering the subject.
Extended X-ray absorption fine structure. --- X-ray absorption near edge structure. --- X-ray absorption fine structure. --- Fine structure, X-ray absorption --- XAFS (X-ray absorption fine structure) --- Absorption spectra --- X-ray spectroscopy --- Fine structure, Near edge X-ray absorption --- Near edge structure, X-ray absorption --- Near edge X-ray absorption fine structure --- NEXAFS (Near edge X-ray absorption fine structure) --- XANES (X-ray absorption near edge structure) --- X-ray absorption fine structure --- EXAFS (Extended X-ray absorption fine structure) --- Fine structure, Extended X-ray absorption
Choose an application
Spectrometric and optical chemical analysis --- fysicochemie --- Extended X-ray absorption fine structure --- Extended x-ray absorption fine structure --- X-ray absorption near edge structure --- Surface extended X-ray absorption fine structure --- Extended X-ray absorption fine structure, Surface --- SEXAFS (X-ray spectroscopy) --- Absorption spectra --- X-ray spectroscopy --- Near edge structure, X-ray absorption --- Near edge X-ray absorption fine structure --- NEXAFS (X-ray spectroscopy) --- XANES (X-ray spectroscopy) --- EXAFS (X-ray spectroscopy) --- X-ray absorption fine structure, Extended --- Extended X-ray absorption fine structure. --- Surface extended X-ray absorption fine structure. --- X-ray absorption near edge structure. --- Radiation, Ionizing. --- Radiometry. --- Spectrum Analysis --- methods. --- Methods. --- Fine structure, Near edge X-ray absorption --- NEXAFS (Near edge X-ray absorption fine structure) --- XANES (X-ray absorption near edge structure) --- X-ray absorption fine structure --- EXAFS (Extended X-ray absorption fine structure) --- Fine structure, Extended X-ray absorption --- Monograph
Choose an application
X-ray absorption fine structure (XAFS) is a powerful technique in characterization of structures and electronic states of materials in many research fields including, e.g., catalysts, semiconductors, optical ingredients, magnetic materials, and surfaces. This characterization technique could be applied in a static or a dynamic state (in-situ condition). The XAFS can provide information that is not accessible by other techniques for characterization of materials, particularly catalysts and related surfaces. Furthermore, XAFS can provide a molecular-level approach to the study of reaction mechan
X-ray absorption fine structure. --- Catalysts. --- Surfaces (Technology) --- Fine structure, X-ray absorption --- XAFS (X-ray absorption fine structure) --- Absorption spectra --- X-ray spectroscopy --- Materials --- Surface phenomena --- Friction --- Surfaces (Physics) --- Tribology --- Catalytic agents --- Catalysis --- Chemical inhibitors --- Surfaces --- Extended X-ray absorption fine structure. --- Surfaces (Technology).
Choose an application
Choose an application
Absorption spectra --- Extended x-ray absorption fine structure --- X-ray spectroscopy --- 535 --- Emission spectroscopy, X-ray --- Energy dispersive x-ray spectroscopy --- Excitation analysis, Fluorescent --- Fluorescence analysis, X-ray --- Fluorescent excitation analysis --- Fluorescent x-ray spectroscopy --- X-ray emission spectroscopy --- X-ray fluorescence analysis --- Spectrum analysis --- EXAFS (X-ray spectroscopy) --- X-ray absorption fine structure, Extended --- Selective absorption --- Exciton theory --- Molecular spectroscopy --- Optics --- Absorption spectra. --- Extended x-ray absorption fine structure. --- X-ray spectroscopy. --- 535 Optics --- XES (X-ray emission spectroscopy) --- EXAFS (Extended X-ray absorption fine structure) --- Fine structure, Extended X-ray absorption --- X-ray absorption fine structure
Choose an application
Immunohistochemistry --- Microscopy, Electron --- Electron microscopic immunocytochemistry --- Immunocytochemistry --- Immunocytochimie --- methods --- Electron microscopic immunocytochemistry. --- Immunocytochemistry. --- methods. --- FINE STRUCTURE IMMUNOCYTOCHEMISTRY --- MANUALS
Choose an application
Main objective of this work is to develop, by systematic variation of the chemical composition, and TMP, 14% Cr nano-structured ferritic alloys with significantly improved high-temperature properties compared to currently available ODS alloys. Application of state-of-the-art characterization tools shall lead to an integrated understanding of structure-property correlation and the formation mechanism of nanoparticles.
Choose an application
Nanobiotechnology is one of the key technologies of the 21st century. It is a combination of nanoscience and biotechnology and covers areas ranging from gene transfer and nanoencapsulation to food technology. Nanocarriers are a leading nanobiotechnology tool with the ability to provide protection, site-specific delivery, enhanced bioavailability and controlled release of pharmaceuticals, genetic material, imaging agents, nutraceuticals and cosmetics to name a few. For this reason, the study of nanocarriers, their properties and applications has attracted a great deal of interest over recent years. Designed as an advanced survey of the field, this book describes the key research parameters of nanocarrier technologies including their preparation methods, evaluation of their safety and efficiency, their interaction with biologicals and their application in biotechnology, drug delivery, gene therapy and food technology areas.
Biotechnology. --- Nanotechnology. --- Ultrastructure (Biology) --- Chemical engineering --- Genetic engineering --- Fine structure (Biology) --- Nanobiology --- Cells --- Microstructure --- Nanoscience --- Molecular technology --- Nanoscale technology --- High technology
Choose an application
593.172 <6> --- Stentor --- -Ultrastructure (Biology) --- Stentorella --- Stentorina --- Stentoridae --- 593.172 <6> Heterotricha. Stentoridae--Afrika --- Heterotricha. Stentoridae--Afrika --- Fine structure (Biology) --- Nanobiology --- Cells --- Microstructure --- Nanoscience --- Morphology --- Ultrastructure (Biology).
Listing 1 - 10 of 52 | << page >> |
Sort by
|