Synthetic Applications of Transition‐Metal‐Catalyzed C−P Bond Cleavage

Abstract: The wide occurrence of carbon-phosphorus bond activation in modern organic synthesis, catalyst deactivation, and biological process has attracted interest for synthetic applications. Over the past few decades, transition-metal-mediated transformations have become extremely powerful tools in organic synthesis. In this review, considerable progress that has been made in catalytic activations and transformations of carbon-phosphorus bonds within the coordination sphere of transition metals is described. Mechanist… Show more

“…Consequently,aplausible mechanism was proposed for the reaction of 1b and 2b (Scheme 4b). Thei nitial chemoselective reaction of 2b and Pd(PPh 3 ) 4 produces the expected p-allylpalladium complex A.The dissociated PPh 3 attacks 1b to favorably generate the E-configured allylic P-ylide species B.T hus,t he g-regioselective allylic alkylation occurs by cooperative catalysis.N ext, the key oxidative addition between olefin-complexed Pd 0 and phosphonium groups in C (Pd-decompelxed cation was detected by HRMS analysis) delivers the intermediate D. [14] Therefore,t he classical Heck coupling proceeds to afford the intermediate E,and produce the observed 3b after areductive b-elimination process.Thus, PPh 3 acts as an unusual catalyst in the Pd-catalyzed Hecktype coupling by forming active phosphonium species with 1b,rendering the current reaction proceed by unprecedented auto-tandem cooperative catalysis.…”

Auto‐Tandem Cooperative Catalysis Using Phosphine/Palladium: Reaction of Morita–Baylis–Hillman Carbonates and Allylic Alcohols

“…Consequently,aplausible mechanism was proposed for the reaction of 1b and 2b (Scheme 4b). Thei nitial chemoselective reaction of 2b and Pd(PPh 3 ) 4 produces the expected p-allylpalladium complex A.The dissociated PPh 3 attacks 1b to favorably generate the E-configured allylic P-ylide species B.T hus,t he g-regioselective allylic alkylation occurs by cooperative catalysis.N ext, the key oxidative addition between olefin-complexed Pd 0 and phosphonium groups in C (Pd-decompelxed cation was detected by HRMS analysis) delivers the intermediate D. [14] Therefore,t he classical Heck coupling proceeds to afford the intermediate E,and produce the observed 3b after areductive b-elimination process.Thus, PPh 3 acts as an unusual catalyst in the Pd-catalyzed Hecktype coupling by forming active phosphonium species with 1b,rendering the current reaction proceed by unprecedented auto-tandem cooperative catalysis.…”

Auto‐Tandem Cooperative Catalysis Using Phosphine/Palladium: Reaction of Morita–Baylis–Hillman Carbonates and Allylic Alcohols

“…Recently Duan and coworkers reported a protocol that provides an unprecedented intramolecular catalytic aryl phosphination of the internal alkyne with a Pd(OAc)2/CuI bimetallic catalyst system via P-C bond activation of stable tertiaryphosphines (Scheme 21) [58]. The authors indicated that both the lone pair on the phosphine and the alkynyl group tethered to aryl group of the phosphine are crucial for this reaction, and coordination of Pd species with 2-(arylethynyl)phenylphosphine (12) gives a bidentate palladium complex (13). When they tried the intermolecular reaction as a control reaction, no reaction between PPh3 and diphenylacetylene was observed under same reaction conditions.…”

“…Transition metal-catalyzed phosphine decomposition has been observed in several instances. Earlier studies have been thoroughly reviewed in previous literature [7][8][9][10][11][12][13]. Among the many known deactivation pathways, Garrou indicated that P-C bond scission is an ubiquitous phenomenon observed with a large number of transition metals and phosphine ligands that often lead to a fatal catalyst deactivation through the irreversible formation of phosphido-bridged di and multi-nuclear complexes [7].…”

Transition metal-mediated metathesis between P–C and M–C bonds: Beyond a side reaction

“…This process was initially recognized as challenging in the following aspects: 1) It requires the formation of a strained three membered cyclic intermediate; 35,36 2) C-P bond cleavage has never been achieved in the classical Staudinger reaction. In general, C-P bond cleavage normally requires the assistance of metal catalyst and/or base additive, so the feasibility of this step under mild conditions is unknown; [37][38][39][40][41][42][43] 3) Product stability issues: some molecules bearing the N-P (III) bond are unstable and not isolable. 16,44 In this study, by using acyl-phosphine type substrates, we achieved a new Staudinger strategy which is able to maintain the N-P (III) bond and construct the amide bond simultaneously.…”

New Staudinger Strategy Enabled N -Acyl Phosphinamidites Synthesis