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Molte persone hanno avuto occasione di vedere le forme ed i colori dei cristalli formati dalle rocce cristalline, ma forse pochi sanno che le sostanze chimiche possono formare dei microcristalli, visibili al microscopio, con forme e colori altrettanto belli. Immersi nel nostro mondo macroscopico non ci rendiamo conto che attorno a noi vi sono altri fantastici mondi microscopici che attendono di essere svelati. In questo libro sono riportate con intento educativo una serie di informazioni di base su come preparare i microcristalli e su come poterli osservare e fotografare al microscopio in varie condizioni (luce polarizzata, campo oscuro ed illuminazione di Rheinberg), ma l’aspetto più affascinante è la vasta serie di immagini di microcristalli che viene proposta. Questo libro vuole condividere con il lettore le emozioni visive che vengono da un incredibile fusione di forme, le più disparate ed inusuali, con un arcobaleno di variazioni cromatiche e sfumature inimmaginabili e di impareggiabile bellezza, che non sono solo un piacere per gli occhi, ma testimoniano anche come la fantasia della natura non abbia mai fine.
Crystal growth. --- Crystals. --- Visual Arts --- Chemical & Materials Engineering --- Art, Architecture & Applied Arts --- Engineering & Applied Sciences --- Photography --- Materials Science --- Crystals --- Culture --- Photography. --- Inorganic chemistry. --- Cultural and Media Studies. --- Inorganic Chemistry. --- Study and teaching. --- Crystallography --- Powders --- Solids --- Chemistry, inorganic. --- Inorganic chemistry --- Chemistry --- Inorganic compounds
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Inorganic chemistry --- Photography --- fotografie --- anorganische chemie
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Although atomic force microscopy (AFM) offers many significant advantages over the conventional microscopies used in the biological and medical sciences, its use is more familiar to physicists and engineers than to biomedical researchers. In Atomic Force Microscopy: Biomedical Methods and Applications, highly experienced physicians and biologists clearly explain the basic technical knowledge needed to use AFM and demonstrate its multifarious uses in biomedicine and the life sciences. The applications range widely from morphostructural analyses of cellular structures, to the investigation of subcellular structures, to functional investigations, and reveal a powerful new way of looking at biological samples. Each tested protocol includes step-by-step instructions to ensure successful experimental results, background material on the principle behind the technique, tips on troubleshooting and avoiding known pitfalls, and notes on how to distinguish artifacts from useful data. The methods clearly demonstrate the advantages of AFM over traditional life science microscopy, among them simultaneous very high magnification and resolution, minimal tissue and cell preparation, and the ability to obtain different views of the sample from a single data collection. Cutting-edge and highly practical, Atomic Force Microscopy: Biomedical Methods and Applications will help all investigators in biology and medicine open a new microscopic world, develop novel applications, and apply this powerful technology productively in their own work.
Atomic force microscopy --- Microscopy, Atomic Force --- Molecular Biology --- methods --- Atomic force microscopy. --- Molecular biology. --- Molecular biochemistry --- Molecular biophysics --- AFM (Microscopy) --- Biochemistry --- Biophysics --- Biomolecules --- Systems biology --- Scanning probe microscopy --- Biochemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Composition --- Microscopy, Atomic Force - methods --- Molecular Biology - methods
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With its ability to explore the surface of the sample by means of a local scanning probe and its use of dedicated software allows to be visualize results, atomic force microscopy (AFM) has revolutionized the study of the smallest aspects of life. Atomic Force Microscopy in Biomedical Research: Methods and Protocols proves that this technology is no longer simply just another form of microscopy but has given rise to a completely new way of using microscopy that fulfils the dreams of all microscopists: being able to touch, move, and interact with the sample while it is being examined, thus making it possible to discover not only morphological but also chemical and physical structural information. Covering such topics as molecule imaging, nanoscale surface analysis and cellular imaging, force-spectroscopy, investigating drug action, and AFM as a nanotool, this volume features the most up-to-date techniques currently in use. Written in the Methods in Molecular Biology™ series format, chapters include introductions to their respective topics, lists of the necessary materials, step-by-step, readily reproducible protocols, and expert tips on troubleshooting and avoiding known pitfalls. Comprehensive and cutting-edge, Atomic Force Microscopy in Biomedical Research: Methods and Protocols brings together different types of applications in order to provide examples from diverse fields in the hope of inspiring researchers to apply their ingenuity in their own specialization and add significant originality to their varying studies.
Radiology, Medical. --- Microscopy. --- Imaging / Radiology. --- Biological Microscopy. --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Optics --- Clinical radiology --- Radiology, Medical --- Radiology (Medicine) --- Medical physics --- Atomic force microscopy --- Molecular biology - Methodology
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Pharmacology. Therapy --- Pathology of the respiratory system
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Molte persone hanno avuto occasione di vedere le forme ed i colori dei cristalli formati dalle rocce cristalline, ma forse pochi sanno che le sostanze chimiche possono formare dei microcristalli, visibili al microscopio, con forme e colori altrettanto belli. Immersi nel nostro mondo macroscopico non ci rendiamo conto che attorno a noi vi sono altri fantastici mondi microscopici che attendono di essere svelati. In questo libro sono riportate con intento educativo una serie di informazioni di base su come preparare i microcristalli e su come poterli osservare e fotografare al microscopio in varie condizioni (luce polarizzata, campo oscuro ed illuminazione di Rheinberg), ma l'aspetto più affascinante è la vasta serie di immagini di microcristalli che viene proposta. Questo libro vuole condividere con il lettore le emozioni visive che vengono da un incredibile fusione di forme, le più disparate ed inusuali, con un arcobaleno di variazioni cromatiche e sfumature inimmaginabili e di impareggiabile bellezza, che non sono solo un piacere per gli occhi, ma testimoniano anche come la fantasia della natura non abbia mai fine.
Inorganic chemistry --- Photography --- fotografie --- anorganische chemie
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