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    Catalysis by Molybdena-Alumina and Related Oxide Systems

    New search for: Vanselow, Ralf
    New search for: Howe, Russell
    New search for: Hall, W. Keith

    During the past 30 years, modern surface science and a variety of new spectroscopies have evolved, together with the ability to achieve, easily and routinely ultra-high-vacuum conditions. At first, tungsten surfaces were studied almost exclusively because of the ease with which they could be cleaned, used, and regenerated reproducibly. Today, experiments are carried out on single-crystal planes of many metals of catalytic interest. Similar studies of oxide and sulfide surfaces are just now beginning and they provide the investigator with some new and challenging problems. No longer will the surface be composed of atoms of a single element in various geometric arrangements all having similar chemistry. Instead the surface will contain a variety of configurations of both anions and cations, each having its own chemistry and at times acting cooperatively with each other to activate molecules.

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    Catalysis by Molybdena-Alumina and Related Oxide Systems

    New search for: Vanselow, Ralf
    New search for: Howe, Russell
    New search for: Hall, W. Keith

    During the past 30 years, modern surface science and a variety of new spectroscopies have evolved, together with the ability to achieve, easily and routinely ultra-high-vacuum conditions. At first, tungsten surfaces were studied almost exclusively because of the ease with which they could be cleaned, used, and regenerated reproducibly. Today, experiments are carried out on single-crystal planes of many metals of catalytic interest. Similar studies of oxide and sulfide surfaces are just now beginning and they provide the investigator with some new and challenging problems. No longer will the surface be composed of atoms of a single element in various geometric arrangements all having similar chemistry. Instead the surface will contain a variety of configurations of both anions and cations, each having its own chemistry and at times acting cooperatively with each other to activate molecules.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Catalysis by Molybdena-Alumina and Related Oxide Systems

    New search for: Vanselow, Ralf
    New search for: Howe, Russell
    New search for: Hall, W. Keith

    During the past 30 years, modern surface science and a variety of new spectroscopies have evolved, together with the ability to achieve, easily and routinely ultra-high-vacuum conditions. At first, tungsten surfaces were studied almost exclusively because of the ease with which they could be cleaned, used, and regenerated reproducibly. Today, experiments are carried out on single-crystal planes of many metals of catalytic interest. Similar studies of oxide and sulfide surfaces are just now beginning and they provide the investigator with some new and challenging problems. No longer will the surface be composed of atoms of a single element in various geometric arrangements all having similar chemistry. Instead the surface will contain a variety of configurations of both anions and cations, each having its own chemistry and at times acting cooperatively with each other to activate molecules.

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    Title:

    Catalysis by Molybdena-Alumina and Related Oxide Systems

    Contributors:

    Vanselow, Ralf (editor) / Howe, Russell (editor) / Hall, W. Keith (author)

    Published in:

    Chemistry and Physics of Solid Surfaces VI ; Chapter: 5 ; 73-105

    Springer Series in Surface Sciences ; 5

    Publication date:

    1986-01-01

    Size:

    33 pages

    ISBN:

    978-3-642-82727-3 , 978-3-642-82729-7

    ISSN:

    0931-5195

    DOI:

    https://doi.org/10.1007/978-3-642-82727-3_5

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Alumina Surface , Alumina Support , Oxygen Chemisorption , Sulfided Catalyst , Olefin Metathesis Physics , Surface and Interface Science, Thin Films , Surfaces and Interfaces, Thin Films , Physical Chemistry , Physics and Astronomy

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