A Highly Substitutable Palladium(II) Complex Stabilized by the Smallest Steric N‐Heterocyclic Carbene, IMe (IMe = 1,3‐Dimethylimidazole‐2‐ylidene)

Abstract: Palladium complexes supported by N-heterocyclic carbenes (NHCs) have been of great interests in catalysis because of their capability as efficient catalysts in organic synthesis. 1,2 Since the strong palladium-NHC bonds retain the stability of palladium complexes, and steric modification of the NHC ligands can be readily available, NHCs become more popular and important alternatives to phosphines as supporting ligands. 3,4 Thus, the synthetic direction of NHCs has been aimed to optimize both electronic and ste… Show more

“…We have previously described the synthesis and characterization of Pd(0) I Me 2 ( 1 ), Pd­( I Me) 2 O 2 ( 1O 2 ), and related complexes. , Exposing a yellow tetrahydrofuran (THF) solution of 1 to atmospheric O 2 generated a bisque-colored precipitate, which was determined to be a palladium­(II) peroxide complex, 1O 2 . Adding 9,10-dihydroanthracene (DHA) to a pyridine solution of 1O 2 generated anthracene (Anth), H 2 O, 1 , and the dihydroxide 1­(OH) 2 .…”

Mechanistic Studies for Pd(II)(O₂) Reduction Generating Pd(0) and H₂O: Formation of Pd(OH)₂ as a Key Intermediate

“…We have previously described the synthesis and characterization of Pd(0) I Me 2 ( 1 ), Pd­( I Me) 2 O 2 ( 1O 2 ), and related complexes. , Exposing a yellow tetrahydrofuran (THF) solution of 1 to atmospheric O 2 generated a bisque-colored precipitate, which was determined to be a palladium­(II) peroxide complex, 1O 2 . Adding 9,10-dihydroanthracene (DHA) to a pyridine solution of 1O 2 generated anthracene (Anth), H 2 O, 1 , and the dihydroxide 1­(OH) 2 .…”

Mechanistic Studies for Pd(II)(O₂) Reduction Generating Pd(0) and H₂O: Formation of Pd(OH)₂ as a Key Intermediate