• Using raw materials more sustainably

    From ScienceDaily@1:317/3 to All on Mon Mar 7 21:30:46 2022
    Using raw materials more sustainably

    Date:
    March 7, 2022
    Source:
    Max-Planck-Gesellschaft
    Summary:
    Insights into the oxidation of hydrocarbons at vanadium pentoxide
    pave the way for a new catalyst design.



    FULL STORY ==========================================================================
    The experimental elucidation of the structures at the interface between a working catalyst and the reacting molecules is the key to a fundamental understanding of heterogeneous catalysis. Researchers from the Fritz
    Haber Institute of the Max Planck Society have reassigned the vibrational spectrum of vanadium pentoxide, an important catalyst for the synthesis of valuable products through the reaction of organic molecules with gas-phase oxygen, and have thus been able to elucidate which centres are involved in
    the activation of the oxygen molecule and the oxidation of hydrocarbons.


    ==========================================================================
    In the crystal structure of vanadium pentoxide, three different types
    of oxygen atoms are distinguished by how they link neighbouring vanadium
    atoms. The vibrational spectra of the oxide measured by Raman spectroscopy differ when the oxygen atoms with the regular atomic mass 16 are exchanged
    for the heavier oxygen isotope with mass 18. The researchers have now
    simulated the Raman spectra for the cases where either only one of the
    three positions in the solid or all three are occupied by a heavier
    oxygen atom. By comparing calculated spectra with spectra measured in
    the presence of isotopically labelled oxygen, the team of the Fitz Haber Institute showed which of the three different oxygen atoms in the lattice
    of the catalyst reacts with the gas phase.

    Due to the well-defined structure of the solid and the fact that the investigations were carried out under realistic catalysis conditions, experimentally verified conclusions about the influence of the reaction conditions in the oxidation of propane on the structure of the working
    catalyst were possible. The type of the oxygen atom and whether only the surface or also centres in deeper layers of the solid are involved in the reaction depends on the temperature and the chemical composition of the
    gas phase. This information is important because different oxygen species direct the surface reaction either towards valuable oxidation products or towards a total combustion of the hydrocarbon to carbon dioxide. It was
    found that only at very high temperatures and under strongly reducing conditions are oxygen atoms in the lattice of the catalyst exchanged
    for oxygen atoms from the gas phase. Under conditions where the catalyst produces high-value reaction products like propylene or oxygenates, this
    is hardly the case and measurable only after long times in operation. This means that established mechanistic and design concepts in oxidation
    catalysis have to be reconsidered in order to achieve a sustainable use
    of raw materials by avoiding their total combustion to carbon dioxide.

    ========================================================================== Story Source: Materials provided by Max-Planck-Gesellschaft. Note:
    Content may be edited for style and length.


    ========================================================================== Journal Reference:
    1. Yuanqing Wang, Frank Rosowski, Robert Schlo"gl, Annette
    Trunschke. Oxygen
    Exchange on Vanadium Pentoxide. The Journal of Physical Chemistry C,
    2022; 126 (7): 3443 DOI: 10.1021/acs.jpcc.2c00174 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2022/03/220307113110.htm

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