Buch, Englisch, 909 Seiten, Format (B × H): 160 mm x 234 mm, Gewicht: 1542 g
A Book in Celebration of the Life and Work of Sir John Meurig Thomas
Buch, Englisch, 909 Seiten, Format (B × H): 160 mm x 234 mm, Gewicht: 1542 g
ISBN: 978-0-85404-114-5
Verlag: RSC Publishing
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Chapter 1: Voyages with the Master; Chapter 2: Multifaceted studies of zeolites and other catalytic materials; Chapter 3: The deductive approach to chemistry, a paradigm shift; Chapter 4: Future energy materials; Chapter 5: Structure diversity and potential applications of metal-organic coordination polymers; Chapter 6: Elucidating crystal growth in nanoporous materials: the importance of microscopy; Chapter 7: Exploration of new porous solids in the search for adsorbents and catalysts; Chapter 8: Concerning the solid state packing of [(ButCO2)3M2]2(?-9,10-anthracene-dicarboxylate) compounds (M = Mo or W) and other matters; Chapter 9: High pressure and high temperature oxidation in the IrSr2RECu2O8 family of cuprates: the disordered multiple perovskite (A1/3A'2/3)(B1/3B'2/3)O3-x phases: Chapter 10: Melting and amorphisation; Chapter 11: Computer modelling and solid state chemistry; Chapter 12: Towards a catalogue of designer zeolites; Chapter 13: Discovering new crystal architectures; Chapter 14: Chemical modulations in Pb-Bi-sulphosalts: a glimpse at minerals in solid-state chemistry; Chapter 15: Complexity - in the eye of the beholder; Chapter 16: Synthesis and characterization of Zn-T-sites in mazzite; Chapter 17: Anything protons do, muons do better !; Chapter 18: Molecular cohesion and the structure of organic crystals; Chapter 19: Aperiodicity in organic materials; Chapter 20: From the synthesis of acetylenic natural products to seeing the light with polymers; Chapter 21: Molecular recognition within one-dimensional channels; Chapter 22: FTIR study of short range mobility in some crystalline peroxides: solid-state rotational isomerism of CO2; Chapter 23: From "Nature" to an adventure in single site epoxidation catalysis; Chapter 24: A comparison between enzymes and solid state catalysts; Chapter 25: Zeolite modelling: active sites in different framework structures and in different crystallographic positions; Chapter 26: Magnetic resonance imaging: a new window on the catalyst operating in the reactor environment; Chapter 27: Dissociative chemisorption of hydrogen chloride at Cu(110): atom resolved time-dependent evidence for transient states in the formation of the "final state" stable chloride overlayer; Chapter 28: Recent advances in single-site photocatalytic solids constructed within microporous and mesoporous materials; Chapter 29: Structural organization of catalytic functions in Mo-based selective oxidation catalysts; Chapter 30: Designing active sites at surfaces - from tightly bound to loosely anchored; Chapter 31: Polynuclear transition metal cluster complexes containing tin ligands: precursors to new heterogeneous nano-catalysts; Chapter 32: Selective oxidation using gold and gold-palladium nanoparticles; Chapter 33: Electronic factors in hydrocarbon oxidation catalysis; Chapter 34: The importance of selectivity in ammoxidation catalysis; Chapter 35: The mysteries of water in catalysts preparation: solvent or much more?; Chapter 36: Solid acid microporous H-SAPO-34: from early studies to perspectives; Chapter 37: Strategically designed single-site heterogeneous catalysts for clean technology, green chemistry and sustainable development; Chapter 38: Catalysis by Lewis acids: basic principles for highly stereoselective heterogeneously-catalyzed cyclization reactions; Chapter 39: Recent advances in the XPS spectra of non-conductors; Chapter 40: Electron microscopy studies of structural modulations in micro- and meso-porous crystals; Chapter 41: Extrapolating from fifty years of dislocation imaging - reaching into the core; Chapter 42: Turning points in understanding the emission of brilliant light from highly defective GaN-based materials and devices; Chapter 43: Electron tomography: a 3D view of catalysts and nanoscale structures; Chapter 44: Nano and mesoporous materials: a study by HREM; Chapter 45: In situ direct observation at atomic scale twinning transformations and the formation of carbon nanostructures in WC; Chapter 46: A survey of the Bi2O3 - MoO3 binary system; Chapter 47: The surface structure of nanoparticulate systems studied by aberration-corrected analytical electron microscopy