Metallaborane Reaction Chemistry. <i>nido</i>-Dirhodapentaborane Isomer Structures and Stabilities and Utilization of Dirhodaboranes as Catalysts for Alkyne Cyclotrimerization
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https://figshare.com/articles/dataset/Metallaborane_Reaction_Chemistry_i_nido_i_-Dirhodapentaborane_Isomer_Structures_and_Stabilities_and_Utilization_of_Dirhodaboranes_as_Catalysts_for_Alkyne_Cyclotrimerization/3773598
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资源简介:
The reaction of (Cp*Rh)2B2H6 (1) with BH3THF under mild conditions leads to the
intermediate (Cp*Rh)2B3H7, which is shown to exist in the two isomeric forms 1,2-(Cp*Rh)2B3H7 (2a) 1,2-(Cp*Rh)2(μ-H)B3H6 (2b) by a solid-state structure of 2a and low-temperature NMR data of the mixture. 1 slowly decomposes at room temperature to yield
a number of products including pileo-(Cp*Rh)3B4H4 (4), which has been characterized by a
solid-state structure determination. 2 converts on heating to 2,3-(Cp*Rh)2B3H7 (3), of known
structure. 1−3 catalyze the cyclotrimerization of both terminal and internal alkynes with
differing activities. The rate of catalysis is inhibited by PPh3 and pyridine and competition
experiments show evidence for a multistep mechanism with concentration-dependent
selectivity. The pathway proposed suggests the borane fragment acts in an ancillary role by
providing a cluster environment for the dimetal fragment. Metal polyhedral edge opening
on alkyne (or base) addition is proposed as the novel activation step thereby making
rhodaboranes hybrid cluster catalysts.
创建时间:
2016-08-26



