Silylation of N2 catalyzed by cubic [Mo3S4Ni] clusters bearing Mo-bound cyclopentadienyl ligands
Artikel i vetenskaplig tidskrift, 2025
Ni has been known as a relatively inert transition metal for N2 capturing and reduction. Based upon our recent report on N2 activation at the Fe site of cubic [CpR3Mo3S4Fe] clusters (CpR = C5Me5 (Cp*), C5Me4SiMe3 (CpL), C5Me4SiEt3 (CpXL)), we report herein a rare example of catalytic N2 silylation by the Ni congeners, [CpR3Mo3S4Ni] clusters. Even though the reduction of [CpR3Mo3S4Ni] precatalysts under a N2 atmosphere did not give stable and isolable N2-bound species, the clusters displayed up to 100 equiv. per cluster of N(SiMe3)3 formation from N2 in the presence of excess Na and ClSiMe3. This number is as high as four times the only previous report in lieu of molecular Ni catalyst. Computational studies on the potential N2-bound state of the [CpR3Mo3S4Ni] catalyst and its Fe analog gave quantitative insights into the role of the M(d) to N2(π*) π back-donation in the activation of the N-N bond.
Författare
Yuto Matsuoka
Kyoto University
Yuta Sakai
Kyoto University
Nagoya University
Hitoshi Izu
Kyoto University
Sayaka Shimoyama
Kyoto University
Mayu Fujisawa
Nagoya University
Mizuki Tada
Nagoya University
Nishshanka M. Lakshan
University of Colombo
Chamil Sameera Wickramarachchi Millawalage
University of Colombo
Hokkaido University
Kazuki Tanifuji
Kyoto University
Yasuhiro Ohki
Kyoto University
Journal of Coordination Chemistry
0095-8972 (ISSN) 10290389 (eISSN)
Vol. 1 100001Ämneskategorier (SSIF 2025)
Kemi
DOI
10.1016/j.cocr.2024.100001