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Cristall chemistry --- fysicochemie --- chemie --- Solids --- Solides --- Periodicals --- Périodiques --- Périodiques. --- #TS:WNAT --- Chemistry --- General and Others --- Solid State Physics --- Physics --- Chemistry. --- Solid State Physics. --- Physics. --- Périodiques --- EJCHIMI EJPHYSI ELSEVIER-E EPUB-ALPHA-J EPUB-PER-FT --- Journal --- Crystal chemistry
Periodical
ISSN: 23297778 Year: 2014 Publisher: Place of publication unknown AIP
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Structural dynamics --- Models, Molecular. --- Structural dynamics. --- Building dynamics --- Dynamics, Structural --- Structural vibration --- Strains and stresses --- Structural analysis (Engineering) --- Molecular Models --- Model, Molecular --- Molecular Model --- Molecular Conformation --- Molecular Structure --- x-ray fel --- synchrotrons --- pulsed electrons sources --- nuclear dynamics --- diffraction --- Crystal chemistry
Periodical
ISSN: 21954720 09334807
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Pteridines --- Pterin --- neopterin --- pteridines --- folic acid --- folates --- heterocyclic compounds --- Pteridinones --- Pyrazinopyrimidines --- Pterins --- Pyrimidinepyrazines --- Pyrimidopyrazines --- Bicyclic compounds --- Organonitrogen compounds --- Pyrazines --- Pyrimidines --- Cristall chemistry --- Pteridines. --- Pteridine --- Pteridinone --- Pyrazinopyrimidine --- pterin --- Crystal chemistry
ISBN: 0191916684 0191661139 1280903651 9786610903658 0585221456 9780585221458 0198555555 9780198555551 0198555555 Year: 1994 Publisher: Oxford Oxford University Press
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As inorganic materials are put to more and more practical uses - mainly in electric, magnetic, and optical devices - materials scientists must have an increasingly sophisticated understanding of the chemical and physical properties of inorganic compounds. This volume - the first of its kind in 20 years - provides a unified presentation of the chemistry of non-stoichiometric compounds based on statistical thermodynamics and structural inorganic chemistry. Four modern examples of non-stoichiometric compounds - ionic conducting compounds, hydrogen absorbing alloys, magnetic materials, and electrical materials - are discussed in detail. Students and researchers in structural inorganic chemistry, crystallography, materials science, and solid state physics will find this much-needed text both practical and informative.
Inorganic compounds --- Stoichiometry. --- Stoechiometry --- Stoicheometry --- Chemistry, Physical and theoretical --- Compounds, Inorganic --- Inorganic chemicals --- Chemicals --- Chemistry, Inorganic --- Properties. --- 546.265 --- 546.265 Compounds of carbon with sulphur, selenium, tellurium and their derivatives, including those containing oxygen and halogens --- Compounds of carbon with sulphur, selenium, tellurium and their derivatives, including those containing oxygen and halogens --- Crystals --- Inorganic compounds. --- Defects. --- Lattice defects --- Twinning (Crystallography) --- Crystal chemistry --- fysicochemie
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Solid State Communications is an international medium for the publication of short communications on significant developments in condensed matter science, giving scientists immediate access to important, recently completed work. The journal publishes original experimental and theoretical research on the physical and chemical properties of solids and other condensed systems and also on their preparation. The submission of manuscripts reporting research on the basic physics of materials science and devices, as well as of state-of-the-art microstructures and nanostructures, is encouraged. A coherent quantitative treatment emphasizing new physics is expected rather than a simple accumulation of experimental data. Consistent with these aims, the submitted manuscripts should be kept concise and short, usually not longer than four printed pages. The number of figures and tables should also be kept to a minimum. Instructions for the preparation of manuscripts appear in the first issue of each volume. Solid State Communications will also publish important initial results of ongoing research which should be referred to in more extensive papers being submitted elsewhere at a later date.
Cristall chemistry --- fysicochemie --- Physics --- Solid state chemistry --- Solid state physics --- Chimie de l'état solide --- Physique de l'état solide --- Periodicals --- Périodiques --- Chimie de l'état solide --- Physique de l'état solide --- Périodiques. --- #TS:WSCH --- #TS:WNAT --- 54 --- Chemistry. Mineralogical sciences --- Material Science and Metallurgy --- Nanomaterials --- Condensed Matter Physics --- Particle Physics --- Solid State Physics --- General and Others --- Material Science and Metallurgy. --- Solid State Physics. --- Physics. --- 54 Chemistry. Mineralogical sciences --- Périodiques --- EJPHYSI ELSEVIER-E EPUB-ALPHA-S EPUB-PER-FT --- Chemistry, Solid state --- Chemistry, Physical and theoretical --- 54 Chemie. Kristallografie. Mineralogie --- Chemie. Kristallografie. Mineralogie --- Journal --- Crystal chemistry
ISBN: 0444852697 0444864903 0444823700 0444509666 9786611038854 1281038857 0080530451 9786611311582 1281311588 0080535313 9780444823700 9780444864901 Year: 1996 Publisher: Amsterdam Elsevier
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Dislocations are lines of irregularity in the structure of a solid analogous to the bumps in a badly laid carpet. Like these bumps, they can be easily moved, and they provide the most important mechanism by which the solid can be deformed. They also have a strong influence on crystal growth and on the electronic properties of semiconductors.
Cristall chemistry --- fysicochemie --- Dislocations in crystals --- Solid state physics --- Dislocations dans les cristaux --- Physique de l'état solide --- Dislocations in crystals. --- Solid state physics. --- #KVIV --- Physique de l'état solide --- Collected works --- Vaste lichamen. Fysica. (Versch. onderwerpen) --- Dislocations dans les cristaux. (Mélanges) --- Solides. Physique. (Mélanges) --- Dislocaties in kristallen. (Versch. onderwerpen) --- Dislocations in crystals. Solid state physics. --- Chemical & Materials Engineering --- Materials Science --- Engineering & Applied Sciences --- Strengthening mechanisms in solids. --- Materials --- Solids --- Strength of materials --- Crystals, Dislocations in --- Dislocation theory --- Dislocations (Crystals) --- Crystallography --- Crystals --- Deformations (Mechanics) --- Grain boundaries --- Plasticity --- Twinning (Crystallography) --- Strengthening mechanisms --- Crystal chemistry --- Frottement --- Usure (mécanique) --- Dislocations --- Etat solide
Book
Year: 2019 Publisher: MDPI - Multidisciplinary Digital Publishing Institute
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This book is a printed edition of the Special Issue Crystal Chemistry of Zinc, Cadmium and Mercury that was published in Crystals
hydroxyl group --- bis(1 --- quinaldinic acid --- solidification --- xanthate --- wurtzite --- mechanical --- EBSD --- oxo-centred polyhedra --- coordination polymer --- precipitation --- 5-thiophenedicarboxylic acid --- defects in semiconductors --- zinc(II) complexes --- precursor --- nanometer zinc oxide --- zinc --- thermal analysis --- transmission electron microscopy (TEM) --- crystal chemistry --- pyridine --- dithiocarbamate --- high magnetic field --- index of X-ray powder diffraction data --- 1 --- hydrogen bonding --- 2 --- luminescence --- cadmium --- interface structure --- 3-bis(1 --- mercury --- aqueous solution method --- crystallography --- growth mechanism --- PL spectra --- phonon dispersion --- coordination polymers --- 4-triazol-1-yl)propane --- CdZnTe --- oxochromates(VI) --- Ni3Sn structure type --- structural chemistry --- dithiophosphates --- traveling heater method --- ZnO nanorod arrays --- copper amalgams --- dental amalgams --- unusual coordination modes --- CdS --- zinc-rich crystal --- 4-triazol-1-yl)methane --- elastic --- crystal structure --- phonon --- bitopic ligand --- room-temperature solid state reaction --- zinc complex --- characterization --- crystal engineering --- ZnS --- hydrogen bond
Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Crystallography remains, for mineralogy, one of the main sources of information on natural crystalline substances. A description of mineral species shape is carried out according to the principles of geometric crystallography; the crystal structure of minerals is determined using X-ray crystallography techniques, and physical crystallography approaches allow one to evaluate various properties of minerals, etc. However, the reverse comparison should not be forgotten as well: the crystallography science, in its current form, was born in the course of mineralogical research, long before preparative chemistry received such extensive development. It is worth noting that, even today, investigations of crystallographic characteristics of minerals regularly open up new horizons in materials science, because the possibilities of nature (fascinating chemical diversity; great variation of thermodynamic parameters; and, of course, almost endless processing time) are still not available for reproduction in any of the world's laboratories. This Special Issue is devoted to mineralogical crystallography, the oldest branch of crystallographic science, and aims to combine important surveys covering topics indicated in the keywords below.
galenobismutite --- high pressure --- single-crystal X-ray synchrotron diffraction --- equation of state --- calcium ferrite structure type --- lone electron pair --- vaterite --- calcium carbonate --- polymorph --- precipitation --- synthesis --- carbonation --- pathogen crystallization --- biomimetic synthesis --- renal stone --- calcium oxalate --- apatite --- brushite --- struvite --- octocalcium phosphate --- whitlockite --- Escherichia coli --- Klebsiella pneumoniae --- Pseudomonas aeruginosa --- Staphylococcus aureus --- uranyl --- selenite --- selenate --- crystal structure --- topology --- structural complexity --- demesmaekerite --- guillemenite --- haynesite --- coesite --- high-temperature Raman --- FTIR spectrum --- single crystal structure --- isobaric Grüneisen parameters --- OH-stretching modes --- strontium oxalate --- solid solutions --- ionic substitutions --- weddellite --- whewellite --- X-ray powder diffraction --- scanning electron microscopy --- EDX spectroscopy --- hydroxy-hydrate --- sulfate --- cesium --- schoepite --- krasnoshteinite --- zeolite-like borate --- hydrous aluminum chloroborate --- new mineral --- microporous crystalline material --- evaporitic salt rock --- Verkhnekamskoe potassium salt deposit --- Perm Krai --- anatomy --- Cactaceae --- oxalate --- silica --- stem --- stanfieldite --- phosphate --- merrillite --- meteorite --- pallasite --- mesosiderite --- luminophore --- bioceramics --- powder diffraction --- Raman spectroscopy --- Kamchatka --- hot springs --- pyrite --- complexity of crystal habits --- Mars --- mineral --- crystallography --- crystal chemistry --- X-ray diffraction --- crystal growth --- mineral evolution
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Molecular probes --- Magnetic resonance imaging --- Molecular Imaging --- Magnetic Resonance Imaging --- Magnetic resonance imaging. --- Molecular probes. --- Bioprobes --- Probes, Molecular --- Clinical magnetic resonance imaging --- Diagnostic magnetic resonance imaging --- Functional magnetic resonance imaging --- Imaging, Magnetic resonance --- Medical magnetic resonance imaging --- MR imaging --- MRI (Magnetic resonance imaging) --- NMR imaging --- Nuclear magnetic resonance --- Nuclear magnetic resonance imaging --- Functional Magnetic Resonance Imaging --- Imaging, Chemical Shift --- Proton Spin Tomography --- Spin Echo Imaging --- Steady-State Free Precession MRI --- Tomography, MR --- Zeugmatography --- Chemical Shift Imaging --- MR Tomography --- MRI Scans --- MRI, Functional --- Magnetic Resonance Imaging, Functional --- Magnetization Transfer Contrast Imaging --- NMR Imaging --- NMR Tomography --- Tomography, NMR --- Tomography, Proton Spin --- fMRI --- Chemical Shift Imagings --- Echo Imaging, Spin --- Echo Imagings, Spin --- Functional MRI --- Functional MRIs --- Imaging, Magnetic Resonance --- Imaging, NMR --- Imaging, Spin Echo --- Imagings, Chemical Shift --- Imagings, Spin Echo --- MRI Scan --- MRIs, Functional --- Scan, MRI --- Scans, MRI --- Shift Imaging, Chemical --- Shift Imagings, Chemical --- Spin Echo Imagings --- Steady State Free Precession MRI --- Imaging, Molecular --- Diagnostic use --- structural analysis --- spectroscopy --- crystallography --- dynamic imaging --- Molecular biology --- Affinity labeling --- Cross-sectional imaging --- Diagnostic imaging --- Magnetic Resonance Spectroscopy --- Anatomy, Cross-Sectional --- Technique --- Imaging systems in chemistry --- Molecular Imaging. --- Magnetic Resonance Imaging. --- Chemical imaging systems --- Chemical apparatus --- Imaging systems in chemistry. --- Animal Biochemistry --- Magnetic Resonance Image --- Image, Magnetic Resonance --- Magnetic Resonance Images --- Resonance Image, Magnetic --- Science --- Crystal chemistry
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