Details

Nanotechnology in Catalysis


Nanotechnology in Catalysis

Applications in the Chemical Industry, Energy Development, and Environment Protection
Applications of Nanotechnology 1. Aufl.

von: Bert F. Sels, Marcel Van de Voorde

547,99 €

Verlag: Wiley-VCH
Format: EPUB
Veröffentl.: 20.06.2017
ISBN/EAN: 9783527699834
Sprache: englisch
Anzahl Seiten: 1190

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Beschreibungen

Reflecting the R&D efforts in the field that have resulted in a plethora of novel applications over the past decade, this handbook gives a comprehensive overview of the tangible benefits of nanotechnology in catalysis. By bridging fundamental research and industrial development, it provides a unique perspective on this scientifically and economically important field.<br> While the first three parts are devoted to preparation and characterization of nanocatalysts, the final three provide in-depth insights into their applications in the fine chemicals industry, the energy industry, and for environmental protection, with expert authors reporting on real-life applications that are on the brink of commercialization.<br> Timely reading for catalytic chemists, materials scientists, chemists in industry, and process engineers.
<p>Series Editor Preface VII</p> <p>About the Series Editor IX</p> <p>Foreword by Gerhard Ertl XXXI</p> <p>Foreword by Pierre Jacobs XXXIII</p> <p><b>Volume 1</b></p> <p><b>Part One Preparation of Nanocatalysts and Their Potential in Catalysis 1</b></p> <p>1 Liquid-Phase Synthesis of Nanocatalysts 3<br /><i>Jean-Francois Hochepied</i></p> <p>2 Supported Gold Nanoparticles Leading to Green Chemistry 21<br /><i>Tamao Ishida and Masatake Haruta</i></p> <p>3 Application of Nanocarbon Materials to Catalysis 37<br /><i>Jos</i><i>é</i><i> Lu</i><i>í</i><i>s Figueiredo</i></p> <p>4 Nano-Oxide Mesoporous Catalysts in Heterogeneous Catalysis 57<br /><i>Ioana Fechete and Jacques C. Vedrine</i></p> <p>5 Solution Combustion Synthesis, Characterization, and Catalytic Properties of Oxide Materials 91<br /><i>Parthasarathi Bera and Singanahally T. Aruna</i></p> <p>6 Nanostructured Porous Materials: Synthesis and Catalytic Applications 119<br /><i>Ana Franco, Alina M. Balu, Antonio A. Romero, and Rafael Luque</i></p> <p>7 Core Magnetic Composites for Catalytic Applications 145<br /><i>Simona M. Coman and Vasile I. Parvulescu</i></p> <p>8 Metal Nanoparticles Supported on Magnetically Separable Materials 179<br /><i>Charlie Batarseh, Ester Weiss, and Raed Abu-Reziq</i></p> <p>9 Tuning the Activity of Supported Nanoparticles Through Charge Transfer 209<br /><i>Govini Thanthrige Kasun Kalhara Gunasooriya and Mark Saeys</i></p> <p>10 Metal–Organic Framework-Mediated Synthesis in Catalysis 225<br /><i>Lide Oar-Arteta, Tim Wezendonk, Xiaohui Sun, Freek Kapteijn, and Jorge Gascon</i></p> <p>11 Sustainable Routes for Synthesis of Zeolite Catalysts 251<br /><i>Xiangju Meng, Liang Wang, and Feng-Shou Xiao</i></p> <p>12 Superior Porous Zeolite Catalysts 275<br /><i>Danny Verboekend</i></p> <p>13 Diffusion in Nanocatalysis 293<br /><i>J</i><i>ö</i><i>rg K</i><i>ä</i><i>rger, Michael Goepel, and Roger Gl</i><i>ä</i><i>ser</i></p> <p>14 Atomic Layer Deposition for Catalysis 335<br /><i>Ranjith K. Ramachandran, Christophe Detavernier, and Jolien Dendooven</i></p> <p>15 Digital Fabrication in Catalytic Technology 359<br /><i>Rob Ameloot</i></p> <p>16 Nanocatalysis: A Key Role for Sustainable Energy Future 385<br /><i>Gabriele Centi and Siglinda Perathoner</i></p> <p>17 Nickel Nanocatalysts for Methane Steam Reforming 401<br /><i>Wojciech Gac, Tadeusz Borowiecki, and Pawe</i><i>?</i><i> Kowalik</i></p> <p>18 Development and Performance of Iron Based Oxygen Carriers for Chemical Looping 421<br /><i>Vladimir V. Galvita, Hilde Poelman, Esteban Fornero, Mark Saeys, and Guy. B. Marin</i></p> <p>19 New Catalytic Initiatives and Challenges in Syngas Conversion 449<br /><i>Roald Brosius, Patricia J. Kooyman, and Jack C.Q. Fletcher</i></p> <p>20 Nonoxidative Dehydroaromatization of Methane 469<br /><i>Nikolay Kosinov and Emiel J.M. Hensen</i></p> <p>21 Oxidations with Nanocatalysis 483<br /><i>Sarah E. Specht, Alessandro Chieregato, and Ive Hermans</i></p> <p>22 Propane-selective Oxidation to Acrylic Acid 503<br /><i>Jean-Luc Dubois, Gregory S. Patience, and Jean-Marc M. Millet</i></p> <p>23 Catalysis in Lignocellulosic Biorefineries: The Case of Lignin Conversion 537<br /><i>Wouter Schutyser, Tom Renders, Gil Van den Bossche, Sander Van den Bosch, Steven-Friso Koelewijn, Thijs Ennaert, and Bert F. Sels</i></p> <p>24 Catalysis for Biorefineries: What Industry Needs? 585<br /><i>Jean-Paul Lange</i></p> <p>25 Transformation of Sugars Using Nanoporous Acidic Catalysts 601<br /><i>Shunmugavel Saravanamurugan, Anders Riisager, and Esben Taarning</i></p> <p>26 Rational Design of Nanostructured Carbon Materials: Contribution to Cellulose Processing 627<br /><i>Fran</i><i>ç</i><i>ois J</i><i>é</i><i>r</i><i>ô</i><i>me and Sabine Valange</i></p> <p>27 Nanocatalysis in the Fast Pyrolysis of Lignocellulosic Biomass 655<br /><i>Eleni F. Iliopoulou, Polykarpos A. Lazaridis, and Kostas S. Triantafyllidis</i></p> <p>28 Hydrothermal Carbonization and Its Role in Catalysis 715<br /><i>Michael Renz</i></p> <p>29 Tailored Porous Catalysts for Esterification Processes in Biofuels Production 753<br /><i>Amin Osatiashtiani, Adam F. Lee, and Karen Wilson</i></p> <p><b>Volume 3</b></p> <p><b>Part Three Nanocatalysis for Environmat Protection and Innovations in Energy Research 803</b></p> <p>30 Challenges and Role of Catalysis in CO2 Conversion to Chemicals and Fuels 805<br /><i>Vitaly V. Ordomsky, Anne-Berend Dros, Renate Schwiedernoch, and Andrei Y. Khodakov</i></p> <p>31 Water Splitting on Particulate Semiconducting Photocatalysts under Visible Light 851<br /><i>Takashi Hisatomi, Tsuyoshi Takata, and Kazunari Domen</i></p> <p>32 Visible Light Heterogeneous Nanophotocatalysts (From Catalyst Formulation to Air, Water, and Surface Cleaning Application) 873<br /><i>Paolo Ciambelli, Vincenzo Vaiano, and Diana Sannino</i></p> <p>33 Transferring Knowledge of Electrocatalysis to Photocatalysis: Photocatalytic Water Splitting 891<br /><i>Kazuhiro Takanabe</i></p> <p>34 Integrated Solar Hydrogen Devices: Cell Design and Nanostructured Components in Liquid and Vapor-Phase Water Splitting 907<br /><i>Tom Bosserez, Jan Rong</i><i>é</i><i>, Lisa Geerts, Christos Trompoukis, and Johan A. Martens</i></p> <p>35 Nanocatalysis in Solid Oxide Cells 939<br /><i>Philippe Vernoux</i></p> <p>36 Coproduction of Hydrogen and Chemicals by Electrochemical Reforming of Biomass-Derived Alcohols 961<br /><i>Hamish Andrew Miller, Francesco Vizza, and Paolo Fornasiero</i></p> <p>37 Probing Inter- and Intraparticle Heterogeneity at the Micro- and Nanoscale in Solid Catalysts Using Optical Techniques 981<br /><i>Alexey Kubarev, Eva Plessers, and Maarten Roeffaers</i></p> <p>38 Investigation of Catalytic Surfaces with Surface-Enhanced Solid-State NMR Spectroscopy 1003<br /><i>Fr</i><i>é</i><i>d</i><i>é</i><i>ric Blanc</i></p> <p>39 State-of-the-Art X-Ray Spectroscopy in Catalysis 1029<br /><i>Jeroen A. van Bokhoven and Carlo Lamberti</i></p> <p>40 Theoretical Tool Box for a Better Catalytic Understanding 1055<br />Michel Waroquier, Kristof De Wispelaere, Julianna Hajek, Sven Rogge, Jeroen Van Der Mynsbrugge, and <i>Veronique Van Speybroeck</i></p> <p>Appendix A Chemical Kinetics 1091</p> <p>Appendix B Free Energy and Partition Function in Statistical</p> <p>Physics 1092</p> <p>Acknowledgments 1094</p> <p>References 1094</p> <p>Index 1101</p>
Bert F. Sels is currently head of a research group the Center for Surface Chemistry and Catalysis at the KU Leuven, Belgium. He obtained his PhD in 2000 at KU Leuven in the field of oxidation chemistry with heterogeneous catalysis. He was awarded the DSM Chemistry Award in 2000, and in 2005 the Incentive Award by the Societe Chimique Belge for his research achievements. In 2005 he was appointed assistant professor at KU Leuven, and full professor in 2012. He is co-chair of the Catalysis Commission of the International Zeolite Association (IZA) and co-founder of European Research Institute of Catalysis (ERIC).<br> <br> Marcel Van de Voorde is special advisor at IMEC, Belgium. Recently, his knowledge and 40 years' experience in university education, research and management was honored with the gold medal of the Fondation du Merite Europeen. He studied industrial and chemical engineering and received his PhD in nuclear engineering from the Nancy-Universite, France. He was co-founder and professor at the Hoger Instituut der Kempen, Geel, and the Technical Institute Don Bosco, Hoboken in Belgium. He further holds professorships at the Catholic University of Leuven, the Ghent University, the Delft University of Technology and is visiting professor at several recognized universities in Europe, US, Japan and China. He was active as advisor to various institutions such as the CERN, the European Commission and the Max Planck Institute for Solid State Research.<br>

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