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In-situ characterization of heterogeneous catalysts / (2013)

Rodríguez, José A., [editor og compilation.] ; Hanson, Jonathan C., [editor og compilation.] ; Chupas, Peter J., [editor og compilation.]

Hoboken, NJ :Wiley,

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UID:

almahu_9948198084502882

Umfang: 1 online resource

ISBN: 9781118355916 , 1118355911 , 9781118355909 , 1118355903 , 9781118355893 , 111835589X , 9781118355923 , 111835592X , 9781299534001 , 1299534007 , 1118000161 , 9781118000168

Inhalt: "This book describes innovative techniques to study catalysts and reaction mechanisms, helping chemists improve the performance of their reactions and the efficiency (through reduced materials and waste) of catalyst preparation. It explains both the scope and limitations of specific techniques, including the characterization of the electronic and structural properties of catalysts using XAFS (X-ray Absorption Fine Structure Spectroscopy); techniques for structural characterization based on X-ray diffraction and scattering; for microscopy and morphological studies; for studying the interaction of adsorbates with catalyst surfaces (Raman spectroscopy, NMR, moderate pressure XPS); and mixed techniques"--

Inhalt: "This book examines in-situ techniques for the characterization of heterogeneous catalysts and studying reaction mechanisms. An introduction focuses on basic issues and needs for in-situ studies in catalysis"--

Anmerkung: Cover; Title page; Copyright page; Contents; Contributors; Introduction: Goals and Challenges for the In-situ Characterization of Heterogeneous Catalysts; Catalysis and the Need to Characterize Active Sites in Different Types of Materials and Chemical Environments; Catalyst Composition and Active Phase Identification; Structural Features and Spatial Array of the Active Phase in the Catalyst; The Surface Morphology of the Catalyst Active Phase; Electronic Properties and Chemical State of the Active Phase in the Catalyst; Properties of Adsorbates, Surface Chemistry, and Reaction Mechanism. , AcknowledgmentReferences; 1: QEXAFS in Catalysis Research: Principles, Data Analysis, and Applications; 1.1 Introduction; 1.2 Implementation; 1.3 Data Analysis Methods; 1.3.1 One-Step Reaction; 1.3.2 Two-Step Reactions; 1.4 Examples of QEXAFS in Catalysis Research; 1.5 Summary and Outlook; Acknowledgments; References; 2: Spatially Resolved X-ray Absorption Spectroscopy; 2.1 Introduction; 2.2 X-ray Absorption Spectroscopy; 2.3 Full-Field Microscopy and Tomography; 2.3.1 Full-Field Imaging with High Spatial Resolution; 2.3.2 Full-Field Imaging of a Catalyst during Partial Oxidation of Methane. , 2.3.3 Time-Resolved Imaging of a Catalyst during the Ignition of Partial Oxidation of Methane2.3.4 Tomography; 2.4 Scanning Microscopy and Tomography; 2.4.1 Experimental Setup and Contrast Mechanisms; 2.4.2 Scanning Modes in Microscopy and Tomography; 2.4.3 Example: XANES Tomography of a Cu/ZnO Catalyst inside a Reactor Capillary; 2.5 Outlook; References; 3: Energy-Dispersive EXAFS: Principles and Application in Heterogeneous Catalysis; 3.1 Introduction; 3.2 The Dispersive Concept and Its Ramifications for the Study of Heterogeneous Materials. , 3.2.1 Detectors, Bandwidths, and Inline Normalization3.2.2 Issues Related to X-ray Scattering and Sample Uniformity; 3.3 Examples of Applications of Dispersive EXAFS to Problems in Catalysis; 3.3.1 Establishing the Significance of Vanadium Oxidation States during Selective Maleic Anhydride Synthesis from N-Butane; 3.3.2 Oscillations during CO Oxidation by O2 over Pd Catalysts; 3.3.3 Dispersive EXAFS for Characterizing Pt and PtGe Nanoparticles and Wires in Mesoporous Hosts; 3.3.4 Dispersive EXAFS and the World of Auto Exhaust Catalysis for Pollution Abatement. , 3.4 Future Perspectives and Possibilities3.4.1 Difficult Samples, Dilute Samples, and Very High Time Resolution; 3.4.2 Spatial Measurements and Tomography; 3.4.3 Other Areas of Foreseeable or Ongoing Development; 3.5 Conclusions; Acknowledgments; References; 4: In-situ Powder X-ray Diffraction in Heterogeneous Catalysis; 4.1 Introduction; 4.2 Crystal Structure and Powder Diffraction; 4.3 Tools for In-situ Measurements; 4.3.1 X-ray Sources; 4.3.2 Flow Control and Product Analysis; 4.3.3 In-situ Cells; 4.3.4 Detectors; 4.3.5 Analysis.

Weitere Ausg.: Print version: In-situ characterization of heterogeneous catalysts. Hoboken, NJ : Wiley, 2013 ISBN 9781118000168

Sprache: Englisch

Schlagwort(e): Electronic books. ; Electronic books. ; Electronic books. ; Electronic books.

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118355923

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In-situ characterization of heterogeneous catalysts / (2013)

Rodriguez, José A.

Hoboken, NJ :Wiley,

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Details

UID:

almafu_BV041379357

Umfang: IX, 478 S. : , Ill., graph. Darst.

ISBN: 978-1-118-00016-8

Sprache: Englisch

Fachgebiete: Chemie/Pharmazie

RVK:

VE 7040

Schlagwort(e): Heterogene Katalyse ; In situ ; Aufsatzsammlung

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Buch

Fernleihwunsch

FU Berlin

Online-Ressource

In-situ characterization of heterogeneous catalysts (2013)

Rodríguez, José A. ; Hanson, Jonathan C. ; Chupas, Peter J. ; [weitere]

Hoboken, N.J. :Wiley,

zur Merkliste hinzufügen auf der Merkliste

Details

UID:

almahu_9948317513702882

Umfang: ix, 478 p. : , ill. (some col.)

Ausgabe: Electronic reproduction. Ann Arbor, MI : ProQuest, 2015. Available via World Wide Web. Access may be limited to ProQuest affiliated libraries.

Anmerkung: Machine generated contents note: Introduction: Goals and Challenges for the In-situ Characterization of Heterogeneous Catalysts Jose A. Rodriguez (Brookhaven National Laboratory), Jonathan C. Hanson (Brookhaven National Laboratory), Peter J. Chupas (Argonne National Laboratory). Chapter 1: QEXAFS in Catalysis Research: Principles, Data Analysis and Applications Anatoly Frenkel (Yeshiva University), Syed Khalid (Brookhaven National Lab), Jonathan C. Hanson (Brookhaven National Lab), Maarten Nachtegaal (Paul Scherrer Institute) Chapter 2: Spatially Resolved X-ray Absorption Spectroscopy Christian G. Schroer (Technical University Dresden), J.D. Grunwaldt (DTU, Denmark) Chapter 3: Energy dispersive EXAFS: principles, and application, in heterogeneous catalysis Andy Dent (Diamond Synchrotron), Mark Newton (ESRF) Chapter 4: In-situ Powder X-ray Diffraction in Heterogeneous Catalysis Jonathan C. Hanson (Brookhaven National Laboratory), Poul Norby (Technical University of Denmark) Chapter 5: Pair Distribution Function Analysis of High Energy X-ray Scattering Data Karena Chapman (Argonne National Laboratory), Peter J. Chupas (Argonne National Laboratory) Chapter 6: Neutron Scattering for In-situ Characterization of Catalysts Ashfia Huq (Oak Ridge National Laboratory), Wei-Ren Chen (Oak Ridge National Laboratory) Chapter 7: Visualization of Surface Structures of Heterogeneous Catalysts under Reaction Conditions or during Catalysis with High Pressure Scanning Tunneling Microscopy Franklyn (Feng) Tao (University of Notre Dame), Yingchun Ye (University of Notre Dame), Yuan Zhu (University of Notre Dame), Shiran Zhang (University of Notre Dame), Lei Wang (University of Notre Dame), Fang Cheng (University of Notre Dame) Chapter 8: In-situ Infrared Spectroscopy on Well-defined Model Catalysts Dario Stacchiola (Brookhaven National Laboratory), Kumudu Mudiyanselage (Brookhaven National Laboratory) Chapter 9: Infrared Spectroscopy on Powder Catalysts Eli Stavitski (Brookhaven National Laboratory) Chapter 10: Structural Characterization of Catalysts by Operando Raman Spectroscopy Miguel A. Bañares (Institute of Catalysis- Madrid), Gerhard Mestl (Sud-Chemie AG) Chapter 11: In-situ Electron Paramagnetic Resonance of powder catalysts Angelika Bruckner (Leibniz Institute of Catalysis) Chapter 12: Application of Ambient Pressure X-ray Photoelectron Spectroscopy for the In-situ Investigation of Heterogeneous Catalytic Reactions David Starr (Brookhaven National Laboratory), Hendrik Bluhm (Lawrence Berkeley National Laboratory), Zhi Liu (Lawrence Berkeley National Laboratory), Axel Knop-Gericke (Max Planck Institute), Michael Havecker (BESI-II) Chapter 13: Combined X-ray diffraction and absorption spectroscopy in Catalysis Research: Techniques and Applications Jonathan C. Hanson (Brookhaven National Laboratory), Anatoly Frenkel (Yeshiva University) Chapter 14: Combining Infrared Spectroscopy with X-ray Techniques for Interrogating Heterogeneous Catalysts. Mark Newton (European Synchrotron Radiation Facility), Marcos Fernandez-Garcia (Catalysis Institute of CSIC, Madrid) Chapter 15: XRD-Raman and Modulation Excitation Spectroscopy Wouter van Beek (European Synchrotron Radiation Facility), Atsushi Urakawa (European Synchrotron Radiation Facility), Marco Milanesio (European Synchrotron Radiation Facility) Chapter 16: Catalyst Imaging using Synchrotron-based Multi-technique Approaches Andew M. Beale (Utrecht University), Javier Ruiz-Martinez (Utrecht University), Bert Weckhuysen (Utrecht University).

Sprache: Englisch

Schlagwort(e): Electronic books.

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