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ADMINISTRATION, ORAL --- EXERTION --- CARBON ISOTOPES --- FRUCTOSE --- GLUCOSE --- EXERTION --- CARBON ISOTOPES --- FRUCTOSE --- GLUCOSE
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During the last twenty years, the multiplicity of potential carbon structures has consistently posed a formidable challenge to theoretical and computational physicists. Several different methods are currently being used to study the structure and the properties of such systems. These methods include simulations based on empirical potentials, tight-binding calculations and density functional theory (DFT). A combination of these methods is needed to make significant progress in the carbon field. This volume provides the reader with a survey of state-of-the-art theoretical and computational contributions featuring novel carbon systems (excluding nanotubes). The chapters are authored by leading researchers who are all actively involved with different aspects of carbon structure and property elucidation. Consequently, a variety of methods are presented to the reader. The editors have successfully compiled an informative book that: showcases the latest results in carbon materials demonstrates how different theoretical methods are combined explains how new carbon structures are predicted Computer-Based Modeling of Novel Carbon Systems and Their Properties is aimed at advanced undergraduates, graduates, and researchers with an interest in computational nanomaterials.
Chemistry --- Materials sciences --- Electrical engineering --- Computer. Automation --- materiaalkennis --- nanotechniek --- chemie --- informatica --- Carbon - Structure - Computer simulation --- Carbon - Isotopes - Structure
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Quantum chemistry --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Nuclear chemistry --- Nuclear magnetic resonance spectroscopy --- Carbon --- Carbon Isotopes --- Magnetic Resonance Spectroscopy --- Spectrum Analysis --- Isotopes --- Spectra --- Spectra.
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fysicochemie --- Organic spectroscopy --- Stereochemistry --- Carbon --- Alicyclic compounds --- Isotopes --- Analysis --- Nuclear magnetic resonance spectroscopy. --- Stereochemistry. --- Analysis. --- Organic compounds. --- Carbon - Isotopes - Analysis --- Alicyclic compounds - Analysis
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Carbon Isotopes --- Nuclear Magnetic Resonance --- Carbon --- Nuclear magnetic resonance spectroscopy --- Carbone --- Spectroscopie de la résonance magnétique nucléaire --- Isotopes --- Spectra --- Spectre --- Basic Sciences. Chemistry --- Chemistry (General) --- Chemistry (General). --- Magnetic Resonance Spectroscopy. --- Spectroscopie de la résonance magnétique nucléaire --- Carbon Isotopes. --- spectrometrie --- General biochemistry --- Organic chemistry --- biochemie --- fysicochemie --- Analytical biochemistry --- organische chemie --- spectroscopie --- Physicochemistry --- C (koolstof) --- Organic spectroscopy
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Isotopes stables dans la recherche en physiologie végétale --- Plant-water relaties --- Plant-water relationships --- Plante-eau [Relations ] --- Plants and water --- Stabiele isotopen in het onderzoek van plantfysiologie --- Stable isotopes in plant physiology research --- Water and plants --- Water-plant relationships --- Carbon --- Plant-water relationships. --- Plants --- Stable isotopes in plant physiology research. --- Plant and Crop Sciences. Botany --- Isotopes. --- Metabolism. --- Plant Physiology --- Plant Physiology. --- Metabolism --- Isotopes --- Carbon - Isotopes. --- Plant physiology --- Soil moisture --- Plant metabolism --- Radiocarbon --- Research --- Effect of anaerobiosis on --- isotopes --- Plants - Metabolism --- Carbon - isotopes
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Carbon --- Nuclear magnetic resonance spectroscopy --- Carbone --- Spectroscopie de la résonance magnétique nucléaire --- Isotopes --- Spectra --- Spectre --- NMR --- Chemie : structuurbepaling --- C-13 NMR --- 543.3 --- Spectroscopie de la résonance magnétique nucléaire --- NMR spectroscopy --- Spectroscopy, NMR --- Spectroscopy, Nuclear magnetic resonance --- Nuclear spectroscopy --- Knight shift --- Group 14 elements --- Light elements --- Isotopes&delete& --- Carbon - Isotopes - Spectra --- CARBON --- NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY --- ISOTOPES --- SPECTRA
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There are few fields of science that carbon-14 has not touched. A radioactive isotope of carbon, it stands out for its unusually long half-life. Best known for its application to estimating the age of artifacts-carbon dating-carbon-14 helped reveal new chronologies of human civilization and geological time. Everything containing carbon, the basis of all life, could be placed in time according to the clock of radioactive decay, with research applications ranging from archeology to oceanography to climatology.In Hot Carbon, John F. Marra tells the untold story of this scientific revolution. He weaves together the workings of the many disciplines that employ carbon-14 with gripping tales of the individuals who pioneered its possibilities. He describes the concrete applications of carbon-14 to the study of all the stuff of life on earth, from climate science's understanding of change over time to his own work on oceanic photosynthesis with microscopic phytoplankton. Marra's engaging narrative encompasses nuclear testing, the peopling of the Americas, elephant poaching, and the flax plants used for the linen in the Shroud of Turin. Combining colorful narrative prose with accessible explanations of fundamental science, Hot Carbon is a thought-provoking exploration of how the power of carbon-14 informs our relationship to the past.
Carbon --- Radiocarbon dating. --- Radioactive dating. --- Age determination, Radiometric --- Dating, Radioactive --- Dating, Radiometric --- Fission dating methods --- Radiometric age determination --- Radiometric dating --- Geochronometry --- Radioactivity --- Carbon dating --- Carbon-14 dating --- Dating, Radiocarbon --- Archaeological dating --- Radioactive dating --- Radiocarbon --- Isotopes. --- Measurement --- Radiocarbon dating --- isotopes --- Carbone --- Datation --- Datation radioactive. --- Méthode du carbone 14 --- Méthode du carbone 14. --- Carbon - isotopes --- Méthode du carbone 14 --- Méthode du carbone 14.
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Deep biosphere research is at the scientific frontier of bio- and geo-related sciences, yet it is largely underexplored. In terms of volume, deep subsurface settings represent some of the largest microbial habitats on the planet, and the combined biomass of the deep biosphere encompasses the largest living reservoir of carbon, excluding land plants. However, the paleo-record of the deep biosphere is still largely uncharted and neglected. The aim of this book is to highlight current research on deep life through time and bring together researchers with various perspectives. The book presents a collection of scientific contributions that provide a sample of forefront research in this field. The contributions involve a range of case studies of deep ancient life in continental and oceanic settings, of microbial diversity in sub-seafloor environments, and of the isolation of calcifying bacteria, as well as reviews on clay mineralization of fungal biofilms and on the carbon isotope records of the deep biosphere. Deciphering the fossil record of the deep biosphere is a challenging task but, when successful, will unlock doors to life’s cryptic past.
Research & information: general --- Impact structure --- fungal hyphae --- in situ radiometric dating --- secondary minerals --- stable isotopes --- subsurface --- sediment --- bacteria --- archaea --- deep biosphere --- clay authigenesis --- fossil fungi --- igneous crust --- cryptoendoliths --- subseafloor habitats --- fossilized microorganisms --- Ophiolite --- bacterial calcium-carbonate precipitation (BCP) --- calcifying bacteria selection --- calcifying mixed cultures --- ImageJ software --- Biolog EcoPlates --- sand biocementation --- carbon isotopes --- diagenetic carbonates --- methanogenesis --- anaerobic methane oxidation --- Wood–Ljungdahl pathway --- in situ U-Pb geochronology --- Caledonides --- deep drilling (COSC-1) --- geobiology --- deep time --- geochronology --- microorganisms --- evolution --- Impact structure --- fungal hyphae --- in situ radiometric dating --- secondary minerals --- stable isotopes --- subsurface --- sediment --- bacteria --- archaea --- deep biosphere --- clay authigenesis --- fossil fungi --- igneous crust --- cryptoendoliths --- subseafloor habitats --- fossilized microorganisms --- Ophiolite --- bacterial calcium-carbonate precipitation (BCP) --- calcifying bacteria selection --- calcifying mixed cultures --- ImageJ software --- Biolog EcoPlates --- sand biocementation --- carbon isotopes --- diagenetic carbonates --- methanogenesis --- anaerobic methane oxidation --- Wood–Ljungdahl pathway --- in situ U-Pb geochronology --- Caledonides --- deep drilling (COSC-1) --- geobiology --- deep time --- geochronology --- microorganisms --- evolution
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During the last twenty years, the multiplicity of potential carbon structures has consistently posed a formidable challenge to theoretical and computational physicists. Several different methods are currently being used to study the structure and the properties of such systems. These methods include simulations based on empirical potentials, tight-binding calculations and density functional theory (DFT). A combination of these methods is needed to make significant progress in the carbon field. This volume provides the reader with a survey of state-of-the-art theoretical and computational contributions featuring novel carbon systems (excluding nanotubes). The chapters are authored by leading researchers who are all actively involved with different aspects of carbon structure and property elucidation. Consequently, a variety of methods are presented to the reader. The editors have successfully compiled an informative book that: showcases the latest results in carbon materials demonstrates how different theoretical methods are combined explains how new carbon structures are predicted Computer-Based Modeling of Novel Carbon Systems and Their Properties is aimed at advanced undergraduates, graduates, and researchers with an interest in computational nanomaterials.
Carbon -- Isotopes -- Structure. --- Carbon -- Structure -- Computer simulation. --- Carbon. --- Carbon --- Chemistry --- Inorganic Chemistry --- Physical & Theoretical Chemistry --- Physical Sciences & Mathematics --- Structure --- Computer simulation --- Isotopes --- Computer simulation. --- Structure. --- Chemistry. --- Chemistry, Physical and theoretical. --- Materials science. --- Nanotechnology. --- Theoretical and Computational Chemistry. --- Materials Science, general. --- Group 14 elements --- Light elements --- Materials. --- Molecular technology --- Nanoscale technology --- High technology --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Physical sciences --- Materials --- Material science --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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