947599-69-1Relevant academic research and scientific papers
[1]Molybdarenophanes: Strained metallarenophanes with aluminum, gallium, and silicon in bridging positions
Lund, Clinton L.,Schachner, Joerg A.,Quail, J. Wilson,Mueller, Jens
, p. 9313 - 9320 (2007)
The first [1]molybdarenophanes were synthesized and structurally characterized. The aluminum and gallium compounds [(Me2Ntsi) Al(η6-C6H5)2Mo] (2a) and [(Me2Ntsi)Ga(η6-C6H5) 2Mo] (2b) [Me2Ntsi = C(SiMe3) 2(SiMe2NMe2)] were obtained from [Mo(LiC 6H5)2]·TMEDA and (Me2Ntsi) ECl2 [E = Al, Ga] in analytical pure form with isolated yields of 74% (2a) and 52% (2b). The silicon-bridged species [Ph2Si- (η6-C6H5)2Mo] (2c) was synthesized from [Mo(LiC6H5)2]·TMEDA and Ph2SiCl2. Compound 2c was isolated as a crystalline material in an approximately 90% overall purity, from which a single crystal was used for X-ray analysis. The molecular structures of all three [1]molybdarenophanes 2a-c were determined by single-crystal X-ray analysis. The ring-tilt angle a was found to be 18.28(17), 21.24(10), and 20.23(29)° for 2a, 2b, and 2c, respectively. Variable temperature NMR measurements of 2a and 2b (-80 to 80°C; 500 MHz) showed a dynamic behavior of the gallium species 2b but not of compound 2a. The dynamic behavior of 2b was rationalized by assuming that the Ga-N donor bond breaks, inversion at the nitrogen atom occurs, and a rotation of the Me2Ntsi ligand takes place followed by a re-formation of the Ga-N bond on the other side of the gallium atom. The analysis of the signals of meta and ortho protons of 2b gave approximate values of ΔG ≠ of 59.6 and 59.1 kJ mol-1, respectively. Compound 2b reacted with [Pt(PEt3)3] to give the ring-open product [(η6-C6H6)Mo{η6-C 6H5[GaPh(Me2Ntsi)]}] (3b). The molecular structure of 3b was deduced from a single-crystal X-ray determination. The formation of the unexpected platinum-free product 3b can be rationalized by assuming that benzene reacted with 2b in a 1:1 ratio. Through a series of 1H NMR experiments with 2b it was shown that small amounts of donor molecules (e.g., THF) in benzene are needed to form 3b; in the absence of a donor molecule, 2b is thermally stable.
