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"Synthesis is the crucial creative step by which new compounds are made. It is also the means by which important chemicals are formulated and processed from initial laboratory experiments to industrial scale production. Inorganic compounds demonstrate huge diversity and so vastly different approaches are required to achieve a multitude of synthetic targets from delicate complexes to robust extended solids. Unifying this cornucopia of concepts and techniques are principles of inspiration and design; if realising new compounds is a process of discovery, then devising the successful synthesis route is a process of invention. This Special Issue provides examples of the inventive strategies exploited to prepare inorganic compounds. Insightful review papers and original research articles highlight some of the most recent developments in innovative inorganic synthesis." -- page 1.
Inorganic compounds --- Synthesis. --- Chemistry, Inorganic --- Chemistry, Synthetic inorganic --- Inorganic synthesis (Chemistry) --- Synthetic inorganic chemistry --- Synthesis
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Organic compounds --- Synthesis. --- Chemistry, Organic --- Chemistry, Synthetic organic --- Organic synthesis (Chemistry) --- Synthetic organic chemistry --- Synthesis --- Chemistry Techniques, Synthetic. --- Chemistry, Organic. --- Organic chemistry --- Chemistry --- Organic Chemistry --- 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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The book outlines recent advances in nuclear wasteform materials including glasses, ceramics and cements and spent nuclear fuel. It focuses on durability aspects and contains data on performance of nuclear wasteforms as well as expected behavior in a disposal environment.
actinides --- corrosion --- modeling --- paper sludge ash --- americium --- geological repository --- seawater --- burnup credit --- spark plasma sintering --- glass composite materials --- spent nuclear fuel --- leaching processes --- zeolite polymer composite fiber --- crystalline ceramics --- glass --- lanthanum --- inorganic synthesis --- durability --- leaching --- layered double hydroxides LDH --- plutonium --- sedimentation --- conditioning --- criticality safety --- uranium --- radionuclide --- sintering --- vitrification --- rare earth elements --- loading curves --- silver iodide --- forward dissolution rate --- caesium phosphomolybdate --- waste form --- fractional release --- alkali borosilicate glass --- immobilisation --- iodine --- lesukite --- geopolymer --- radioactive cesium --- ceramics --- cesium adsorbed --- immobilization --- wasteforms --- secondary phases --- cesium --- safe storage --- borosilicate glass corrosion --- research reactor fuel element U3Si2-Al --- strontium --- in situ fluid-cell Raman spectroscopy --- magnesium potassium phosphate compound --- chlorine --- neodymium --- zirconium molybdate --- heavy ion irradiation --- nuclear waste --- microscopy --- hazardous water
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