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Mineralogical chemistry --- Geochemistry --- Géochimie --- Chimie inorganique --- Chemistry, Mineralogical --- Mineral chemistry
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High-pressure mineral physics is a field that is strongly driven by the development of new technology. Fifty years ago, when experimentally achievable pressures were limited to just 25 GPa, little was know about the mineralogy of the Earth's lower mantle. Silicate perovskite, the likely dominant mineral of the deep Earth, was identified only when the high-pressure techniques broke the pressure barrier of 25 GPa in 1970's. However, as the maximum achievable pressure reached beyond one Megabar (100 GPa) and even to the pressure of Earth's core on minute samples, new discoveries increasingly were
Mineralogy. --- Mineralogical chemistry. --- Geophysics. --- Materials at high pressures.
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Mineral processing to extract metals.
Mineralogical chemistry. --- Minerals. --- Metals. --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Mineralogy --- Mines and mineral resources --- Chemistry, Mineralogical --- Mineral chemistry --- Geochemistry
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Tetrahedron: Asymmetry presents experimental or theoretical research results of outstanding significance and timeliness on asymmetry in organic, inorganic, organometallic and physical chemistry, as well as its application to related disciplines, especially bio-organic chemistry. The journal publishes critical reviews, original research articles and preliminary communications dealing with all aspects of the chemical, physical and theoretical properties of non-racemic organic and inorganic materials and processes. Topics relevant to the journal include: the physico-chemical and biological properties of enantiomers; strategies and methodologies of asymmetric synthesis; resolution; chirality recognition and enhancement; analytical techniques for assessing enantiomeric purity and the unambiguous determination of absolute configuration; and molecular graphics and modelling methods for interpreting and predicting asymmetric phenomena. Papers describing the synthesis or properties of non-racemic molecules will be required to include a separate statement in the form of a Stereochemistry Abstract, for publication in the same issue, of the criteria used for the assignment of configuration and enantiomeric purity.
Chemistry --- Asymmetry (Chemistry) --- Molecular Structure --- Asymétrie (Chimie) --- Periodicals --- periodicals. --- Périodiques --- Asymétrie (Chimie) --- 54 <05) --- Chemistry. Mineralogical sciences --- Biochemistry --- General and Others --- Biochemistry. --- 54 <05) Chemistry. Mineralogical sciences
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No detailed description available for "Information Sources in Chemistry".
Chemical literature. --- Scientific literature --- Chemistry --- Chemical literature --- 54 <01> --- 54 <01> Chemistry. Mineralogical sciences--Bibliografieën. Catalogi --- Chemistry. Mineralogical sciences--Bibliografieën. Catalogi --- informatiebronnen --- chemische technologie --- Literatuuronderzoek --- Chemie.
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Engineering sciences. Technology --- chemie --- Chemistry --- Chemie. --- Biochemie. --- Biotechnologie. --- chemie (scheikunde) --- exacte wetenschappen --- 54 --- chemie. scheikunde --- E-journals --- tijdschriften --- abonnementen --- Chemie --- Procestechnologie --- Chemistry. Mineralogical sciences --- Periodicals --- 54 Chemistry. Mineralogical sciences --- 54 Chemie. Kristallografie. Mineralogie --- Chemie. Kristallografie. Mineralogie
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Mineralogical chemistry --- Petrology --- Geology --- Soils --- Soil science --- Geochemistry --- Minerals --- Chimie inorganique --- Pétrologie --- Géologie --- Sols --- Pédologie --- Géochimie --- Minéraux --- Sol --- Géochimie analytique --- Geochemie. --- Chemistry, Mineralogical --- Mineral chemistry --- Mineralogy --- Mines and mineral resources
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Chemistry --- Research --- 54 <047> --- -#WSCH:ETOS --- Physical sciences --- Chemistry. Mineralogical sciences--Rapporten --- -54 <047> --- 54 <047> Chemistry. Mineralogical sciences--Rapporten --- -Chemistry --- Vocational guidance --- #WSCH:ETOS --- Chemistry - Research - United States
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High-pressure mineral physics is a field that is strongly driven by the development of new technology. Fifty years ago, when experimentally achievable pressures were limited to just 25 GPa, little was know about the mineralogy of the Earth's lower mantle. Silicate perovskite, the likely dominant mineral of the deep Earth, was identified only when the high-pressure techniques broke the pressure barrier of 25 GPa in 1970's. However, as the maximum achievable pressure reached beyond one Megabar (100 GPa) and even to the pressure of Earth's core on minute samples, new discoveries increasingly were
Mineralogy. --- Mineralogical chemistry. --- Geophysics. --- Materials at high pressures. --- Geological physics --- Terrestrial physics --- Chemistry, Mineralogical --- Mineral chemistry --- High pressure (Technology) --- Strength of materials --- Earth sciences --- Physics --- Geochemistry --- Physical geology --- Crystallography --- Minerals
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54 --- 547 --- 579.22 --- chemie --- biochemie --- organische chemie --- 579.22 Biochemistry and physiology of microorganisms --- Biochemistry and physiology of microorganisms --- 547 Organic chemistry --- Organic chemistry --- 54 Chemistry. Mineralogical sciences --- Chemistry. Mineralogical sciences --- Chemistry --- General biochemistry
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