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Tellurolate: an effective Te-atom transfer reagent to prepare the triad of group 5 metal bis(tellurides).

Shuruthi SenthilSeongyeon KwonRichard Y KongSamantha N MacMillanPavel ZatsepinMichael R GauPatrick J CarrollMu-Hyun BaikKyle M LancasterDaniel J Mindiola
Published in: Chemical science (2023)
We show in this work how lithium tellurolate Li(X) n TeCH 2 SiMe 3 (X = THF, n = 1, 1; X = 12- crown -4, n = 2, 2), can serve as an effective Te-atom transfer reagent to all group 5 transition metal halide precursors irrespective of the oxidation state. Mononuclear and bis(telluride) complexes, namely (PNP)M(Te) 2 (M = V; Nb, 3; Ta, 4; PNP - = N[2-P i Pr 2 -4-methylphenyl] 2 ), are reported herein including structural and spectroscopic data. Whereas the known complex (PNP)V(Te) 2 can be readily prepared from the trivalent precursor (PNP)VCl 2 , two equiv. of tellurolate, and elemental Te partially solubilized with PMe 3 , complex 3 can also be similarly obtained following the same procedure but with or without a reductant, Na/NaCl. Complex 4 on the other hand is formed from the addition of four equiv. of tellurolate to (PNP)TaF 4 . Having access to a triad of (PNP)M(Te) 2 systems for group 5 metals has allowed us to compare them using a combination of theory and spectroscopy including Te-L 1 edge XANES data.
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