2017
Bridged N?Heterocyclic/Mesoionic (NHC/MIC) Heterodicarbenes as Ligands for Transition Metal Complexes. Daniel Mendoza-Espinosa, Alejandro Alvarez-Herna?ndez, Deyanira Angeles-Beltra?n, Guillermo E. Negro?n-Silva, Oscar R. Sua?rez-Castillo, and Jose? M. Va?squez-Pe?rez Inorg. Chem., 2017, 56, 2092?2099
Abstract
Following a copper catalyzed alkyne azide cycloaddition (CuAAC) and N-alkylation protocols, we report the preparation of a hybrid N-heterocyclic/mesoionic [NHC(H+)-MIC(H+)][2I]2? salt (1) in high yields. The treatment of salt 1 with Cu2O and KI yields a second hybrid NHC/MIC proligand featuring a tetraiodocuprate anion [NHC(H+)-MIC(H+)][Cu2I4]2? (2). Through selective deprotonation and metalation, both salts 1 and 2 can generate either the chelate heterodicarbene complexes (3) with the rare [NHC(M)MIC]+[MX2]? general formula (M = PdII, RhI) or NHC-anchored/pendent triazolium species (4) [NHC(M)-MIC(H+)]. If the triazolium moiety of type 4 complexes is deprotonated with KHMDS in the presence of a second metal center, a series of heterobimetallic complexes of the type [NHC(M)-MIC(M?)] (5) are achieved. Interestingly, the reaction of salt 2 with KHMDS yields the bimetallic copper heterodicarbene (6) which can be a useful transfer reagent for the preparation of type 3 complexes. A variety of synthetic routes for the preparation of complexes 3?5 and their full characterization in solution and in the solid state will be discussed.
The absoluteconfiguration of cuauhtemone and related compounds
Total Syntheses of Five Indole Alkaloids from the Marine Bryozoan Flustra foliacea
One-potsynthesis of conformationallyrestrictedspirooxindoles
Conformational studies on indole alkaloids from Flustra foliacea by NMR and molecular modeling
Transesterifications mediated by t-BuNH2
13C NMR and crystallographic evidence of push-pull effects in furoindolic ?-enamino esters
Synthesis of 6-bromo-2-arylindoles using 2-iodobenzoic acid as precursor
Unimolecular rearrangements of ketene-O,O-acetals and fragmentations occurring in the gas phase