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Face aux impacts de l'activité humaine sur la nature (qualité, santé, ressources), comment la chimie agit-elle pour la protéger ? Il s'agit de comprendre les milieux naturels : atmosphère, sols, eaux. Puis d'enrayer leurs dégradations : c'est la naissance de l'écologie ou de la chimie des écosystèmes (restauration des sols par les plantes, etc.), ou encore le traitement des émissions de CO2. L'homme s'inspire aussi des mécanismes ingénieux de la nature pour inventer matériaux et médicaments. Il recycle les métaux et exploite la matière végétale comme alternative au pétrole. Il analyse la façon dont la nature capte et utilise l'énergie du Soleil d'où elle tire la vie, et se prépare à s'en inspirer, nous faisant rêver d'un monde nouveau. Les meilleurs acteurs présentent ici toutes ces démarches.
Chemical ecology --- Environmental chemistry --- Écologie chimique --- Chimie de l'environnement --- Medicine, Psychosomatic --- Psychosomatic research --- Research. --- Écologie chimique. --- Chimie de l'environnement.
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Chemistry --- Chemistry. --- Chimie --- Physical sciences --- chemie --- chemistry --- synthese --- synthesis --- anorganische scheikunde --- inorganic chemistry --- Chemistry (General) --- Chemie (algemeen)
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Industrial economics --- Chemistry --- Chemical industry --- Chimie --- Industries chimiques --- Periodicals --- Périodiques --- Chemical industry. --- Chemistry. --- Business, Economy and Management --- General and Others --- Chemical industries --- Chemicals --- Man-made chemicals industry --- Synthetic chemicals industry --- Manufacture and industry --- Physical sciences --- Industries
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Sulfur --- Chemistry, Inorganic --- 35.40 anorganic chemistry: general --- Brimstone --- Sulphur --- Chemistry, Inorganic. --- Sulfur. --- Chalcogens --- Native element minerals --- Nonmetals --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- General and Others --- Inorganic Chemistry --- Soufre --- Chimie inorganique
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The first volume of this two part series is concerned with the fundamental aspects of relativistic quantum theory, outlining the enormous progress made in the last twenty years in this field. The aim was to create a book such that researchers who become interested in this exciting new field find it useful as a textbook, and do not have to rely on a rather large number of specialized papers published in this area.·No title is currently available that deals with new developments in relativistic quantum electronic structure theory·Interesting and relevant to graduate students in chemi
Quantum chemistry. --- Electronic structure. --- Chimie quantique --- Structure électronique --- Relativistic quantum theory. --- Relativistic quantum mechanics --- Quantum theory --- Special relativity (Physics) --- Chemistry, Quantum --- Chemistry, Physical and theoretical --- Excited state chemistry --- Structure, Electronic --- Atomic structure --- Energy-band theory of solids
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Chemistry --- Inorganic compounds --- Organic compounds --- Organometallic compounds --- Reactivity (Chemistry) --- Composés inorganiques --- Composés organiques --- Composés organométalliques --- Réactivité (Chimie) --- Synthesis --- Periodicals --- Periodicals. --- Synthèse --- Périodiques --- Organometallic Compounds --- Synthesis. --- chemistry. --- Material Science and Metallurgy --- General and Others --- Inorganic Chemistry --- Organic Chemistry --- Metals, Minerals, Ores & Alloys --- Metallo-organic compounds --- Metalloids, Organic --- Metalorganic compounds --- Organometalloids --- Compounds, Inorganic --- Inorganic chemicals --- Chemical reaction, Conditions and laws of --- Chemical reactions --- Chemicals --- Chemistry, Inorganic --- Chemistry Techniques, Synthetic. --- Inorganic Synthesis --- Inorganic Synthesis Methods --- Inorganic Synthesis Techniques --- Methods of Inorganic Synthesis --- Methods of Organic Synthesis --- Methods of Peptide Synthesis --- Organic Synthesis --- Organic Synthesis Methods --- Organic Synthesis Techniques --- Peptide Synthesis Methods --- Peptide Synthesis Techniques --- Peptide Synthesis, Synthetic --- Synthetic Chemistry Techniques --- Synthetic Peptide Synthesis --- Chemistry Technique, Synthetic --- Inorganic Syntheses --- Inorganic Synthesis Method --- Inorganic Synthesis Technique --- Method, Inorganic Synthesis --- Method, Organic Synthesis --- Method, Peptide Synthesis --- Methods, Inorganic Synthesis --- Methods, Organic Synthesis --- Methods, Peptide Synthesis --- Organic Syntheses --- Organic Synthesis Technique --- Peptide Syntheses, Synthetic --- Peptide Synthesis Method --- Peptide Synthesis Technique --- Syntheses, Inorganic --- Syntheses, Organic --- Syntheses, Synthetic Peptide --- Synthesis Method, Inorganic --- Synthesis Method, Peptide --- Synthesis Methods, Inorganic --- Synthesis Methods, Peptide --- Synthesis Technique, Inorganic --- Synthesis Technique, Organic --- Synthesis Technique, Peptide --- Synthesis Techniques, Inorganic --- Synthesis Techniques, Organic --- Synthesis Techniques, Peptide --- Synthesis, Inorganic --- Synthesis, Organic --- Synthesis, Synthetic Peptide --- Synthetic Chemistry Technique --- Synthetic Peptide Syntheses --- Technique, Inorganic Synthesis --- Technique, Organic Synthesis --- Technique, Peptide Synthesis --- Technique, Synthetic Chemistry --- Techniques, Inorganic Synthesis --- Techniques, Organic Synthesis --- Techniques, Peptide Synthesis --- Techniques, Synthetic Chemistry
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