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Advances in catalysis. edit...
Since 1948, this series has filled the gap between the papers that report on and the textbooks that teach in the diverse areas of catalysis research. The editors of and contributors to Advances in Catalysis are dedicated to recording progress in this area. Each volume of Advances in Catalysis contains articles covering a subject of broad interest.Advances in Catalysis 44 reflects the expanding impact of experimental surface characterization on the understanding of catalysis. The catalysts emphasized here are representative of the complexity of today's technology; examples
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monografia Rebiun22052609 https://catalogo.rebiun.org/rebiun/record/Rebiun22052609 m o d | cr -n--------- 750919s2000 caua o 000 0 eng d 1-281-01024-3 9786611010249 0-08-049348-3 UPVA 997186085803706 MiAaPQ MiAaPQ MiAaPQ eng 541.395 Advances in catalysis. Volume 44 electronic resource] edited by Werner O. Haag, Bruce C. Gates, Helmut Knözinger San Diego Academic Press 2000 San Diego San Diego Academic Press 1 online resource (581 p.) 1 online resource (581 p.) Text txt computer c online resource cr Advances in catalysis 44 Description based upon print version of record Front Cover; Advances in Catalysis, Volume 44; Copyright Page; Contents; Contributors; Preface; Werner Otto Haag, 1926-1998; Charles Kemball, 1923-1998; John Turkevich, 1907-1998; Chapter 1. NMR Spectroscopy as a Probe of Surfaces of Supported Metal Catalysts; I. Introduction; II. Experimental Considerations; III. 1H NMR; IV. 13CO NMR: Survey of Results; V. 13CO NMR: Discussion; VI. 195Pt NMR; Chapter 2. Applications of Photoluminescence Techniques to the Characterization of Solid Surfaces in Relation to Adsorption, Catalysis, and Photocatalysis; I. Introduction II. Basic Principles of PhotoluminescenceIII. Practical Aspects of Photoluminescence; IV. Photoluminescence and the Nature of Surface Sites; V. Dynamics of Photoluminescence and the Reactivities of Catalysts; VI. Application to Adsorption; VII. Applications to Catalysis; VIII. Application to Photocatalysis; IX. Application to Chemical Detection; X. Relationships to Other Techniques; XI. Conclusions; Chapter 3. The Surface Science Approach toward Understanding Automotive Exhaust Conversion Catalysis at the Atomic Level; I. Introduction; II. Adsorption; III. CO-O2 Reaction IV. Reduction of NO by CO and H2V. Effects of Alloy Formation; VI. Effects of the Additives Cerium and Lanthanum Oxides; VII. Summary, Assessment, and Forecast; Chapter 4. Experiments and Processes in the Transient Regime for Heterogeneous Catalysis; I. Introduction; II. General Principles; III. Case Studies; IV. Summary; Chapter 5. Influence of Phosphorus on the Properties of Alumina-Based Hydrotreating Catalysts; I. Introduction; II. Properties of Phosphorous-Based Compounds Related to the Co(Ni)-Mo-P-Alumina System III. Preparation of Alumina-Based Hydrotreating Catalysts Containing Phosphorus, Molybdenum, and Cobalt or NickelIV. Adsorption of Phosphorus-Containing Compounds on Alumina; V. Characterization of Phosphorus-Containing Hydrotreating Catalysts; VI. Activities of Phosphorus-Based Catalysts; VII. Structural Models of Phosphorus-Containing Hydrotreating Catalysts; VIII. Influence of Phosphorus on Other Hydrotreating Catalysts; IX. Impact of Phosphorus Introduction into Industrial Catalyst Formulations; X. Summary and Conclusions Chapter 6. Skeletal Isomerization of n-Butenes Catalyzed by Medium- Pore Zeolites and AluminophosphatesI. Introduction; II. Mechanisms of Skeletal Isomerization of n-Butenes; III. Trade-off of Selectivity and Activity; IV. Aluminosilicate and Aluminophosphate Molecular-Sieve Catalysts; V. Skeletal Isomerization of n-Butenes Catalyzed by Medium-Pore Microporous Molecular Sieves; VI. Experimental Evidence for Bimolecular and/or Monomolecular Mechanisms; VII. Nature and Location of the Active Sites; VIII. The Coke Deposits and Their Effects; IX. Factors Affecting Isobutylene Selectivity X. Deactivation of the Catalysts with Time on Stream Since 1948, this series has filled the gap between the papers that report on and the textbooks that teach in the diverse areas of catalysis research. The editors of and contributors to Advances in Catalysis are dedicated to recording progress in this area. Each volume of Advances in Catalysis contains articles covering a subject of broad interest.Advances in Catalysis 44 reflects the expanding impact of experimental surface characterization on the understanding of catalysis. The catalysts emphasized here are representative of the complexity of today's technology; examples English Catalysis Chemistry, Physical and theoretical Electronic books Haag, Werner O. Gates, Bruce C. Knözinger, Helmut Advances in catalysis (CKB)954926975030 (DLC)2011233057 (OCoLC)61764781 0-12-007844-9