Catalytic methylation of aromatic amines with formic acid as the unique carbon and hydrogen source

International audienceA novel methodology is presented for the direct methylation of amines, using formic acid as a unique source of carbon and hydrogen. Based on ruthenium(II) catalysts, the formation of the N-CH3 group proceeds via an efficient formylation/transfer hydrogenation pathwa

Synthesis, Structure and Electrochemical Behavior of New RPONOP (R = tBu, iPr) Pincer Complexes of the Fe2+, Co2+, Ni2+ and Zn2+ ions.

International audienceThe coordination chemistry of the M2+ ions of the first row elements iron, cobalt, nickel and zinc was explored with the ligands RPONOP (2,6-(R2PO)(C5H3N), R = iPr and tBu). Syntheses and characterization of the complexes Fe(RPONOP)Br2, Co(tBuPONOP)Cl2, Ni(RPONOP)I2 and Zn(RPONOP)I2 (R = tBu, iPr) are reported together with the crystal structures of Fe(RPONOP)Br2 (R = iPr and tBu), Co(tBuPONOP)Cl2, Co(iPrPONOP)Cl(m-Cl)CoCl2(THF), Ni(iPrPONOP)I2, Zn(iPrPONOP)I2 and of the oxidation product Zn[tBuP(=O)ONOP(=O)]I2 resulting from reaction with oxygen. The electrochemical behavior of the M(tBuPONOP)X2 complexes has been investigated in acetonitrile. While the nickel compound is stable, all the complexes are sensitive to dissociation of the RPONOP ligand or ligand scrambling in strongly coordinating media. Catalytic activity in formic acid dehydrogenation with TONs up to 1143 has been found for Ni(tBuPONOP)I2

Efficient disproportionation of formic acid to methanol using molecular Ruthenium catalysts. Application to the methylation of aromatic amines

International audienc

Carbonylation of C-N Bonds in Tertiary Amines Catalyzed by Low Valent Iron Catalysts

International audienceThe first iron catalysts able to promote the formal insertion of CO into the C-N bond of amines are reported. Using low valent iron complexes, including K2[Fe(CO)4], amides are formed from aromatic and aliphatic amines, in the presence of an iodoalkane promoter. Inorganic Lewis acids, such as AlCl3 and Nd(OTf)3, have a positive influence on the catalytic activity of the iron salts, enabling the carbonylation at a low pressure of CO (6 to 8 bars)

CO2 reduction to methanol and methylamines using formic acid as a C-H bond shuttle

International audienc

CO2 reduction to methanol using formic acid as a C-H bond shuttle

International audienc

Molecular organic and organometallic catalysts for C02 reduction

International audienc