20441-12-7Relevant articles and documents
N?N Bond Formation Using an Iodonitrene as an Umpolung of Ammonia: Straightforward and Chemoselective Synthesis of Hydrazinium Salts
Tota, Arianna,Colella, Marco,Carlucci, Claudia,Aramini, Andrea,Clarkson, Guy,Degennaro, Leonardo,Bull, James A.,Luisi, Renzo
supporting information, p. 194 - 199 (2020/10/28)
The formation of hydrazinium salts by N?N bond formation has typically involved the use of hazardous and difficult to handle reagents. Here, mild and operationally simple conditions for the synthesis of hydrazinium salts are reported. Electrophilic nitrogen transfer to the nitrogen atom of tertiary amines is achieved using iodosylbenzene as oxidant and ammonium carbamate as the N-source. The resulting process is highly chemoselective and tolerant to other functional groups. A wide scope is reported, including examples with bioactive molecules. Insights on the structure of hydrazinium salts were provided by X-ray analysis. (Figure presented.).
Cobalt carbonyl-based catalyst for hydrosilylation of carboxamides
Dombray, Thomas,Helleu, Camille,Darcel, Christophe,Sortais, Jean-Baptiste
supporting information, p. 3358 - 3362 (2013/12/04)
The cobalt carbonyl [Co2(CO)8] complex is employed as a useful catalyst for the reduction of tertiary amides to the corresponding tertiary amines using 1,1,3,3-tetramethyldisiloxane (TMDS) and poly(methylhydrosiloxane) (PMHS) as silane reagents under thermal (100 °C) or photo-assisted conditions (UV, 350 nm at room temperature). Of particular interest, a low catalytic amount (0.5 mol%) of [Co2(CO)8] is used to perform the reaction with 2.2 equiv. of PMHS at 100 °C for 3 h. This reaction is the first example of a cobalt-catalyzed hydrosilylation of amides. Copyright
Phosphane-pyridine iron complexes: Synthesis, characterization and application in reductive amination through the hydrosilylation reaction
Jaafar, Hassen,Li, Haoquan,Misal Castro, Luis C.,Zheng, Jianxia,Roisnel, Thierry,Dorcet, Vincent,Sortais, Jean-Baptiste,Darcel, Christophe
experimental part, p. 3546 - 3550 (2012/10/18)
A series of 6 cyclopentadienyl phosphanyl-pyridine piano-stool iron complexes was prepared in good yields, characterized, and studied in the catalytic reductive amination of benzaldehyde derivatives through hydrosilylation reactions by using polymethylhydrosiloxane as the hydrosilane source and in dimethylcarbonate as the solvent at 40 °C. Single-crystal X-ray structural analyses were performed for all the complexes. A series of 6 cyclopentadienyl phosphanyl-pyridine piano-stool iron complexes was prepared, characterized, and studied in the catalytic reductive amination of benzaldehyde derivatives in dimethylcarbonate through hydrosilylation reactions by using polymethylhydrosiloxane as the hydrosilane source. Copyright