Listing 1 - 9 of 9 |
Sort by
|
Choose an application
Petrology. --- Polarizing microscopes. --- Polarization microscopy.
Choose an application
Petrology. --- Polarizing microscopes. --- Polarization microscopy.
Choose an application
Petrology. --- Polarizing microscopes. --- Polarization microscopy.
Choose an application
Basic Sciences. Biology --- Microscopy. --- Polarization microscopy. --- Biological Techniques.
Choose an application
Chemistry, Inorganic --- Chemistry, Analytic --- Polarization microscopy. --- Tables. --- Qualitative.
Choose an application
This book focuses on polarization microscopy, a powerful optical tool used to study anisotropic properties in biomolecules, and its enormous potential to improve diagnostic tools for various biomedical research. The interaction of polarized light with normal and abnormal regions of tissue reveals structural information associated with its pathological condition. Diagnosis using conventional microscopy can be time-consuming, as pathologists require an hour to freeze and stain tissue slices from suspected patients. In comparison, polarization microscopy more quickly distinguishes abnormal tissue and provides better microstructural information of samples, even in the absence of staining. This book provides a basic understanding of the properties of polarized light, a description of the polarization microscope, and a mathematical formalism of Mueller matrix polarimetry. The authors discuss various advanced linear and nonlinear optical techniques such as optical coherence tomography (OCT), reflectance and transmission spectroscopy, fluorescence, multiphoton excitation, second harmonic generation, Raman microscopy, and more. They explore the exciting potential of integrating polarimetry with these techniques for possible applications in different areas of biomedical research, as well as the associated challenges. Including the most recent developments on the topic, this book serves as a modern guide to polarization microscopy and advancements in its use in biomedical research.
Biology --- Medicine --- Polarization microscopy. --- Research. --- Polarized light microscopy --- Microscopy --- Health Workforce --- Biological research --- Biomedical research --- Optics. --- Biophysics. --- Materials --- Applied Optics. --- Biophysical Methods. --- Materials Characterization Technique. --- Microscopy. --- Technique. --- Analysis. --- Biological physics --- Medical sciences --- Physics --- Light
Choose an application
fysicochemie --- Chemical and physical cristallography --- Crystals --- Polarizing microscope --- Cristaux --- Polarizing microscopes --- Polarization microscopy --- 548.0:535 --- 681.723.2 --- #KVIV --- #WSCH:AAS2 --- Polarization microscopes --- Polarized light microscopes --- Microscopes --- Polarized light microscopy --- Microscopy --- Crystallography --- Powders --- Solids --- General crystallography-:-Optics --- Microscopes according to their mode of action. Transmitted-light microscopes. Incident-light microscopes. Contrast microscopes. Projection microscopes. Interference microscopes. Fluorescencemicroscopes. Polarization microscopes --- Crystals. --- Polarization microscopy. --- Polarizing microscopes. --- 681.723.2 Microscopes according to their mode of action. Transmitted-light microscopes. Incident-light microscopes. Contrast microscopes. Projection microscopes. Interference microscopes. Fluorescencemicroscopes. Polarization microscopes --- 548.0:535 General crystallography-:-Optics --- Chemical and physical crystallography
Choose an application
Diagnostic imaging.. --- Polarization (Light) --- Polarization microscopy. --- Polarized light microscopy --- Microscopy --- Rotation of the plane of polarization --- Electromagnetic waves --- Optics --- Wave-motion, Theory of --- Optical rotation --- Stereochemistry --- Clinical imaging --- Imaging, Diagnostic --- Medical diagnostic imaging --- Medical imaging --- Noninvasive medical imaging --- Diagnosis, Noninvasive --- Imaging systems in medicine --- Polarization
Choose an application
Reactions at mineral surfaces are central to all geochemical processes. As minerals comprise the rocks of the Earth, the processes occurring at the mineral–aqueous fluid interface control the evolution of the rocks and hence the structure of the crust of the Earth during processes such as metamorphism, metasomatism, and weathering. In recent years focus has been concentrated on mineral surface reactions made possible through the development of advanced analytical methods such as atomic force microscopy (AFM), advanced electron microscopies (SEM and TEM), phase shift interferometry, confocal Raman spectroscopy, and advanced synchrotron-based applications, to enable mineral surfaces to be imaged and analyzed at the nanoscale. Experiments are increasingly complemented by molecular simulations to confirm or predict the results of these studies. This has enabled new and exciting possibilities to elucidate the mechanisms that govern mineral–fluid reactions. In this Special Issue, “Mineral Surface Reactions at the Nanoscale”, we present 12 contributions that highlight the role and importance of mineral surfaces in varying fields of research.
metadynamics --- minerals --- n/a --- microstructure --- dissolution-reprecipitation --- stabilization --- albite --- mineral–water interface --- simulation --- krennerite --- mineralogy --- mineral replacement --- calcite --- pyrite --- dissolution-precipitation --- goethite --- recrystallization --- gold–(silver) tellurides --- isotopes --- non-classical nucleation --- calaverite --- interfacial precipitation --- toxic metals --- metasomatism --- adsorption --- amorphous --- pre-nucleation clusters --- surface --- dissolution --- hematite --- cyanide --- MOFs --- leaching --- Raman spectroscopy --- sodalite --- carbonation --- rate spectra --- retreat velocity --- additives --- liquid precursors --- bioaragonite --- brucite --- kinetics --- re-adsorption --- brushite --- polymorphs --- dissolution–precipitation --- hydrothermal experiments --- apatite --- ferrihydrite --- mesocrystals --- catalysts --- carbonic anhydrase --- XPS --- replacement reaction --- mineral growth --- carbon capture and storage --- interfaces --- citrate --- classical nucleation theory --- REEs --- phosphate --- wollastonite --- polarization microscopy --- natural porous gold --- sylvanite --- analcime --- calcium phosphate --- Fe atom exchange --- nepheline --- biomineralisation --- interface-coupled dissolution–reprecipitation --- hydrothermal method --- mineral-water interface --- gold-(silver) tellurides --- interface-coupled dissolution-reprecipitation
Listing 1 - 9 of 9 |
Sort by
|