The dirhodium-tetracarbonyl complex with the PNNP ligand, [Rh 2 (PNNP)(CO) 4 ]BF 4 , 1‚BF 4 [PNNP ) 3,5-bis(diphenylphosphinomethyl)pyrazolato], serves as a precursor for the active species [Rh 2 (PNNP)(CO) 2 ] + , A, with cis-divacant coordination sites, which can accommodate a donor species with up to four donor electrons. Interaction of 1‚BF 4 with LiCtC-R, Li-CHdCH 2 , PPN[M(CO) n ], CN-Cy, SMe 2 , and Et-CtC-Et leads to the formation of the corresponding dinuclear adducts [(X)Rh 2 (PNNP)(CO) 2 ] n+ (BF 4 ) n [X/n ) µ-η 1 :η 2 -CtC-R/0 (2), µ-η 1 :η 2 -CHdCH 2 /0 (3), µ-Co(CO) 4 /0 (4a), µ-Mn(CO) 5 /0 (4b), (η 1 -CtN-Cy) 2 /1 (5‚BF 4 ), µ-η 1 :η 1 -SMe 2 /1 (6‚BF 4 ), µ-η 2 :η 2 -Et-CtC-Et/1 (7‚BF 4 )], respectively. Selective replacement of the inner CO ligands trans to the P atoms is verified by spectroscopic and crystallographic characterizations of the adducts. The µ-acetylide (2) and µ-vinyl complexes (3) show dynamic behavior via the conventional windshield wiper motion of the unsaturated hydrocarbyl ligand. Systematic structural analysis of a series of the µ-acetylide complexes 2 (R ) H, SiMe 3 , n-Bu, Ph, p-tol) reveals three typical conformations for the Rh 2 (PNNP)(CO) 2 backbone: C s -(type I), C 2 -(type II), and C 2v -symmetrical ones (type III). On the other hand, interaction of 1‚BF 4 with 1-alkyne, hydrosilanes, and hydroxo anion produces tetranuclear adducts resulting from 1 (donor):2 [Rh 2 (PNNP)(CO) 2 ] coupling reactions. The µ 4 -η 1 (C R ):η 2 (C R tC )-acetylide complexes, [(µ 4 -CtC-R)Rh 4 (PNNP) 2 (CO) 4 ]BF 4 , 8‚BF 4 , consisting of an acyclic, folded Z-shaped Rh 4 linkage are fluxional via a combination of windshield wiper-like motions between the wingtip Rh centers and between the wingtip and hinge Rh centers, which involve reversible M-M bond scission and recombination processes. The ethynyl complex 8a‚BF 4 (R ) H) is readily deprotonated by the action of a base to give the µ 4 -dicarbide complex (µ-η 1 :η 1 :η 2 :η 2 -CtC)Rh 4 (PNNP)(CO) 4 , 9, via cleavage of three Rh-Rh bonds, and this process is reversed upon protonation of 9 with HBF 4 . The reaction of 1‚BF 4 with hydrosilanes and hydroxo anion furnishes the isostructural tetranuclear complexes [(µ 4 -X)Rh 4 (PNNP)(CO) 4 ] n+ -(BF 4 ) n [X/n ) H/1 (10‚BF 4 ), O/0 (11)], in which the four Rh atoms arranged in a tetrahedral array are connected by the µ 4 -bridging ligand (X), as characterized by X-ray crystallography. The tetranuclear structures are retained mainly by Rh-X interactions even in the case of the electron-deficient hydride complex 10‚BF 4 with 58 valence electrons (cf. 64e for a coordinatively saturated species), where the filled, spherically distributed 1s orbital of the hydride ligand interacts with the four Rh centers arranged in a tetrahedral array. Depending on the size of the bridging ligand X, the structure of the tetranuclear complexes varies from the encapsulated structure (10‚BF 4 and 11) to the one with a folded Z-shaped metal linkage (8‚BF 4 ). The present study reveals (i) the high reactivity (electr...
