February 07, 1996 - February 07, 2029

  • Date:10TuesdayJune 2014

    N2 Cleavage and NH3 Activation by Surface Organometallic Chemistry on silica: Mechanistic Relevance of Metal-hydride Bonds and H2 Heterolytic Splitting

    More information
    Time
    11:00 - 11:00
    Title
    Departmental Seminar Organic Chemistry
    Location
    Helen and Milton A. Kimmelman Building
    LecturerProf. Alessandra Quadrelli
    Université de Lyon
    Organizer
    Department of Molecular Chemistry and Materials Science
    Contact
    hagit.meidler@weizmann.ac.il
    AbstractShow full text abstract about N2 Cleavage and NH3 Activation by Surface Organometallic Che...»
    N2 Cleavage and NH3 Activation by Surface Organometallic Chemistry on silica: Mechanistic Relevance of Metal-hydride Bonds
    and H2 Heterolytic Splitting

    Elsje Alessandra Quadrelli,* Mostafa Taoufik and Hong-Peng Jia Université de Lyon, ICL, UMR 5265 C2P2 CNRS- Université Lyon 1- CPE-Lyon, Equipe COMS, 43 Blvd du 11 Novembre 1918, BP 2077 69616, Villeurbanne, France
    e-mail: quadrelli@cpe.fr

    A draft mechanism for nitrogenase catalytic conversion of N2 to ammonia is now available, assigning a crucial role to bridging iron-hydride bonds to start N2 reduction on the FeMo cofactor:1 two metal-hydride bonds function, one might say, as an intermediary “electron storage” device, the two electrons which are necessary for the first reduction of N2 to diazenido becoming available upon H2 release.

    We have reported a heterogeneous system based on silica-supported tantalum hydrides capable of achieving N2 cleavage with H2 for which we have uncovered a molecular mechanism that entails the same mechanistic feature.3 This presentation will detail our studies leading to the proposed mechanism (thereincluded reaction hydrazido and diazenido intermediates, DFT studies,3 reaction with hydrazine), the reaction of the same hydrides with ammonia4 and the catalytic H/D exchanges studies with D2 and ND3 on final imido complexe4.

    We will conclude with an attempt to compare and contrast our mechanism with the current proposal in nitrogenase, Haber-Bosch and homogeneous Schrock-type catalyses to highlight the role of dihydrogen heterolityc splitting and metal-hydride bonds in dinitrogen cleavage and ammonia activation reactions.5

    References
    1. [a] B. M. Hoffman, D. Lukoyanov, D. R. Dean, L. C. Seefeldt, Accounts of Chemical Research 2013, 46(2), 587. [b] B. M. Hoffman, D. Lukoyanov, Z-Y Yang, D. R. Dean, L. C. Seefeldt, Chem Rev 2014, doi 10.1021/cr4004641x.
    2. P. Avenier, M. Taoufik, A. Lesage, X. Solans-Monfort, A. Baudouin, A. de Mallmann, L. Veyre, J.-M. Basset, O. Eisenstein, L. Emsley, E. A. Quadrelli Science 2007 317, 1056.
    3. X. Solans-Monfort, C. Chow, E. Gouré, Y. Kaya, J.-M. Basset, M. Taoufik, E. A. Quadrelli, O. Eisenstein Inorganic Chemistry 2012, 51(13), 7237.
    4. C. Chow, M. Taoufik, E. A. Quadrelli, Eur. J. Inorg. Chem. 2011, (9), 1349.
    5. H.-P. Jia and E. A. Quadrelli Chem. Soc. Rev. (2014), 43, 547-564.
    Lecture