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2018 | OriginalPaper | Buchkapitel

25. Materials for Solid Catalysts

verfasst von : Karsten Ruth, Peter Albers

Erschienen in: Springer Handbook of Materials Data

Verlag: Springer International Publishing

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Abstract

Catalysts are used to influence both the path and the rate of chemical reactions. This is achieved by controlling the reaction barriers in such a way that intended intermediates and products are formed. The two characteristic catalytic properties are activity and selectivity. The aim of catalyst development is to obtain a catalytically active material in such a way that it maximizes the reaction rate of the successive catalytic reaction steps up to the desired product. In addition, the catalysts have to remain chemically and mechanically stable and active under the reaction conditions for a long time to ensure an economic lifetime of the catalyst.

To achieve the desired properties catalyst development should not only focus on the components required, but also on the material's structure. The most important analytical tool in catalyst development is testing of catalytic activity, looking for the optimum combination of reactants, reaction conditions, and catalyst materials. Development may be mainly empiric, or supported by other techniques, like modeling, experimental design, and/or characterization of the catalyst material to achieve a more targeted approach and to establish a continuously growing knowledge pool for the specific catalytic reaction and process parameters.

This contribution considers the heterogeneous catalyst as a functional material and provides a short overview of its components, the material parameters used, and the characterization techniques available to determine these.

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Vorheriges Kapitel Ferroelectrics and Antiferroelectrics

Nächstes Kapitel Liquid Crystals

25.1

R. Brand, H. Dübler, B. Engler, A. Freund, H. Lansink-Rotgerink, G. Prescher: Edelmetalle in der Katalyse. In: Edelmetalltaschenbuch, ed. by G. Beck, H.-H. Beyer, W. Gerhartz, J. Haußelt, U. Zimmer (Degussa AG, Heidelberg 1995) pp. 351–401

25.2

J. Gieshoff, B.W.L. Southward: Materials for heterogeneous catalysis. In: Precious Materials Handbook, ed. by U. Sehrt, M. Grehl (Umicore AG & Co KG, Hanau-Wolfgang 2012)

25.3

Degussa AG: Edelmetall-Taschenbuch (Degussa AG, Frankfurt 1967) p. 131

25.4

M. Haruta: Chance and necessity: My encounter with gold catalysts, Angew. Chem. Int. Ed. 53, 52–56 (2014)CrossRef

25.5

W. Vielstich, A. Lamm, H.A. Gasteiger (eds.): Handbook of Fuel Cells: Fundamentals, Technology and Applications, Vol. 3, Part 1 (Wiley, Chichester 2009) pp. 465–513

25.6

C. Hagelüken: Autoabgaskatalysatoren, 2nd edn. (Expert, Renningen 2005)

25.7

M. Raney: Method of Producing Finely-Devided Nickel, US Patent (Application) 1628190 (1927)

25.8

A.F. Holleman, E. Wiberg: Lehrbuch der Anorganischen Chemie (Walter de Gruyter, Berlin 1995)

25.9

B.C. Gates: Catalytic Chemistry (Wiley, New York 1992)

25.10

G. Ertl, H. Knözinger, J. Weitkamp: Preparation of Solid Catalysts (Wiley, Weinheim 1999)CrossRef

25.11

A.Y. Khodakov, W. Chu, P. Fongarland: Advances in the development of novel cobalt Fischer–Tropsch catalysts for synthesis of long-chain hydrocarbons and clean fuels, Chem. Rev. 107, 1692–1744 (2007)CrossRef

25.12

P. Albers: Charakterisierung von Katalysatoren, Chem. Ing. Tech. 78, 835–849 (2006)CrossRef

25.13

H. Bremer, K.-P. Wendland: Heterogene Katalyse (Aka, Berlin 1978)

25.14

G. Ertl, H. Knözinger, F. Schüth, J. Weitkamp (Eds.): Handbook of Heterogeneous Catalysis, Vol. 1–8 (Wiley-VCH, Weinheim 2008)

25.15

J.M. Thomas, W.J. Thomas: Principles and Practices of Heterogeneous Catalysis, 2nd edn. (Wiley-VCH, Weinheim 2014)

25.16

J.R. Anderson, M. Boudart (Eds.): Catalysis Science and Technology, Vol. 1–11 (Springer, Berlin, Heidelberg 1996)

25.17

B. Cornils, W.A. Herrmann, C.-H. Wong, H.-W. Zanthoff (Eds.): Catalysis from A to Z, 4th edn. (Wiley-VCH, Weinheim 2013)

25.18

G. Emig: Wirkungsweise und Einsatz von Katalysatoren, Chem. unserer Zeit 21, 128–137 (1987)CrossRef

25.19

G.A. Somorjai: Introduction to Surface Chemistry and Catalysis (Wiley, New York 1994)

25.20

A.A. Balandin: The multiplet theory of catalysis – Energy factors in catalysis, Russ. Chem. Rev. 33(5), 258 (1964)CrossRef

25.21

M. Valden, X. Lai, D.W. Goodman: Onset of catalytic activity of gold clusters on titania with the appearance of nonmetallic properties, Science 281, 1647 (1998)CrossRef

25.22

M.L. Sattler, P.N. Ross: The surface structure of Pt crystallites supported on carbon black, Ultramicroscopy 20, 21–28 (1986)CrossRef

25.23

P.N. Ross: Structure sensitivity in electrocatalytic properties of Pt: II. Oxygen reduction on low index single crystals and the role of steps, J. Electrochem. Soc. 126, 78–82 (1979)CrossRef

25.24

K. Kinoshita: Particle size effects for oxygen reduction on highly dispersed platinum in acid electrolytes, J. Electrochem. Soc. 137, 845–848 (1990)CrossRef

25.25

R. van Hardeveld, F. Hartog: The statistics of surface atoms and surface sites on metal crystals, Surf. Sci. 15, 189–230 (1969)CrossRef

25.26

W. Bronger, W. Klemm: Darstellung von Legierungen des Platins mit unedlen Metallen, Z. Anorg. Allg. Chem. 319, 58–81 (1962)CrossRef

25.27

G.-F. Wei, Z.-P. Liu: Restructuring and hydrogen evolution on Pt nanoparticle, Chem. Sci. 6, 1485–1490 (2015)CrossRef

25.28

F. Roessner: Spillover effects. In: Handbook of Heterogeneous Catalysis, 2nd edn., Vol. 3, ed. by G. Ertl, H. Knözinger, F. Schüth, J. Weitkamp (Wiley-VCH, Weinheim 2008) pp. 1574–1585

25.29

S.J. Tauster: Strong metal–support interactions, Acc. Chem. Res. 20(11), 389–394 (1987)CrossRef

25.30

H. Knözinger, E. Taglauer: Spreading and wetting. In: Preparation of Solid Catalysts, ed. by G. Ertl, H. Knözinger, J. Weitkamp (Wiley, Weinheim 1999) pp. 501–526CrossRef

25.31

K. Möbus, E. Grünewald, S. Wieland, S.F. Parker, P.W. Albers: Palladium-catalyzed selective hydrogenation of nitroarenes: Influence of platinum and iron on activity, particle morphology and formation of β-palladium hydride, J. Catal. 311, 153–160 (2014)CrossRef

25.32

A. Schröder, M. Klüppel, R.H. Schuster, J. Heidberg: Surface energy distribution of carbon black measured by static gas adsorption, Carbon 40, 207–210 (2002)CrossRef

25.33

B. Beguin: Stabilization of alumina by addition of lanthanum, Appl. Catal. 75(1), 18 (1991)CrossRef

25.34

J. Theis, U. Goebel, M. Wittrock, M. Kögel, T. Kreuzer: Nitrogen oxide storage material and nitrogen oxide storage catalyst produced therefrom (2005) Patent WO 2005092481A1

25.35

E. Wicke, H. Brodowsky: Hydrogen in palladium and palladium alloys. In: Hydrogen in Metals II – Application-Oriented Properties, Topics in Applied Physics, Vol. 29, ed. by G. Alefeld, J. Völkl (Springer, Berlin 1978) pp. 73–155

25.36

E. Raub: Platinmetalle. In: Gase und Kohlenstoff in Metallen, ed. by E. Fromm, E. Gebhard (Springer, Berlin 1976) pp. 636–656CrossRef

25.37

P.W. Albers, D. Lennon, S.F. Parker: Catalysis. In: Neutron Scattering: Applications in Chemistry, Materials Science and Biology, Experimental Methods in the Physical Science, Vol. 49, ed. by F. Fernandez-Alonso, D.L. Price (Academic Elsevier, Oxford 2017)

25.38

K. Ruth, M. Hayes, R. Burch, S. Tsubota, M. Haruta: The effects of SO₂ on the oxidation of CO and propane on supported Pt and Au catalysts, Appl. Catal. B 24, L133–L138 (2000)CrossRef

25.39

R. Burch, E. Halpin, M. Hayes, K. Ruth, J.A. Sullivan: The nature of activity enhancement for propane oxidation over supported Pt catalysts exposed to sulphur dioxide, Appl. Catal. B 19, 199–207 (1998)CrossRef

25.40

W. Williamson, J. Perry, R. Goss, H. Gandhi: Catalyst deactivation due to glaze formation from oil-derived phosphorus and zinc, SAE Tech. Paper 841406 (1984)

25.41

B. Angelé, K. Kirchner: The poisoning of noble metal catalysts by phosphorus compounds – I Chemical processes, mechanisms and changes in the catalyst, Chem. Eng. Sci. 35(10), 2089–2091 (1980)CrossRef

25.42

P.W. Albers, S.F. Parker: Inelastic incoherent neutron scattering in catalysis research. In: Advances in Catalysis, Vol. 51, ed. by B.C. Gates, H. Knözinger (Academic, London 2007) pp. 99–132

25.43

P.W. Albers, J. Weitkamp: Carbonaceous deposits. In: Handbook of Heterogeneous Catalysis, 2nd edn., ed. by G. Ertl, H. Knözinger, F. Schüth, J. Weitkamp (Wiley-VCH, Weinheim 2008) pp. 197–217

25.44

P.W. Albers, K. Möbus, C.D. Frost, S.F. Parker: Characterisation of beta palladium hydride formation in the Lindlar catalyst and on carbon supported palladium, J. Phys. Chem. C 115, 24485–24493 (2011)CrossRef

25.45

P.W. Albers, H. Angert, G. Prescher, K. Seibold, S.F. Parker: Catalyst poisoning by methyl groups, Chem. Commun. 17, 1619–1620 (1999)CrossRef

25.46

J.T. Richardson: Principles of Catalyst Development (Plenum, New York 1989)CrossRef

25.47

H. Schulz: Major and minor reactions in Fischer–Tropsch synthesis on cobalt catalysts, Top. Catal. 26(1), 73–85 (2003)CrossRef

Titel: Materials for Solid Catalysts
verfasst von: Karsten Ruth
Peter Albers
Verlag: Springer International Publishing
Buch: Springer Handbook of Materials Data
Print ISBN: 978-3-319-69741-3

Electronic ISBN: 978-3-319-69743-7

Copyright-Jahr: 2018
DOI: https://doi.org/10.1007/978-3-319-69743-7_25

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