52409-22-0, Name is Pd2(DBA)3, belongs to catalyst-palladium compound, is a common compound. Application In Synthesis of Pd2(DBA)3In an article, once mentioned the new application about 52409-22-0.
Phosphinic acids, RfP(O)(OH)H (Rf=CF3, C2F5, C6F5), turned out to be excellent preligands for the coordination of phosphonous acids, RfP(OH)2. Addition of C2F5P(O)(OH)H to solid PtCl2 under different reaction conditions allows the isolation and full characterization of the mononuclear complexes [ClPt{P(C2F5)(OH)O}{P(C2F5)(OH)2}2] and [Pt{P(C2F5)(OH)O}2{P(C2F5)(OH)2}] containing hydrogen-bridged [RfP(OH)O]- and RfP(OH)2 units. Further deprotonation of [Pt{P(C2F5)(OH)O}2{P(C2F5)(OH)2}2] leads to the formation of the dianionic platinate, [Pt{P(C2F5)(OH)O}4]2-, revealing four intramolecular hydrogen bridges. With PdCl2 the dinuclear complex [Pd2(mu-Cl)2{[P(C2F5)(OH)O]2H}2] was isolated and characterized. The Cl- free complex [Pd{P(C2F5)(OH)O}2{P(C2F5)(OH)2}2] was also prepared and deprotonated to the dianionic palladate, [Pd{P(C2F5)(OH)O}4]2-. Both compounds were characterized by NMR spectroscopy, IR spectroscopy, and X-ray analyses. In addition, the C6F5 derivatives [ClPt{P(C6F5)(OH)O}{P(C6F5)(OH)2}2] and [Pd2(mu-Cl)2{[P(C6F5)(OH)O]2H}2] as well as the CF3 derivative [Pd2(mu-Cl)2{[P(CF3)(OH)O]2H}2] were synthesized and fully characterized. Phosphonous acid complexes are inert towards air and moisture and can be stored for several months without decomposition. The catalytic activity of the palladium complexes in the Suzuki cross-coupling reaction between 1-bromo-3-fluorobenzene and phenyl boronic acid was demonstrated. A tautomeric equilibrium between phosphinic, RP(O)(OH)H, and phosphonous acids, RP(OH)2, is evidenced by this work (see figure). The coordination properties of phosphonous acids with electron-withdrawing CF3, C2F5, and C6F5 groups is also described.
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Reference:
Chapter 1 An introduction to palladium catalysis,
Palladium/carbon catalyst regeneration and mechanical application method