168050-39-3Relevant articles and documents
Chemoselective reductions of nitroarenes: Bromoethanol-assisted phthalocyanatoiron/NaBH4 reductions
Wilkinson,Tanoury, Gerald J.,Wald, Stephen A.,Senanayake, Chris H.
, p. 167 - 170 (2001)
Porphyrinatoiron/NaBH4 and a novel phthalocyanatoiron/NaBH4 catalyst systems were investigated for the reductions of nitroarenes. The phthalocyanatoiron/NaBH4 system was superior to the porphyrinatoiron/NaBH4 system. The reductions were performed in good yields and excellent chemoselectivities. The rate of reduction by the PcFe/NaBH4 system increased upon the addition of 2-bromoethanol.
Carbamate Synthesis Using a Shelf-Stable and Renewable C1 Reactant
Dobi, Zoltán,Reddy, B. Narendraprasad,Renders, Evelien,Van Raemdonck, Laurent,Mensch, Carl,De Smet, Gilles,Chen, Chen,Bheeter, Charles,Sergeyev, Sergey,Herrebout, Wouter A.,Maes, Bert U. W.
, p. 3103 - 3114 (2019/06/24)
4-Propylcatechol carbonate is a shelf-stable, renewable C1 reactant. It is easily prepared from renewable 4-propylcatechol (derived from wood) and dimethyl carbonate (derived from CO2) using a reactive distillation system. In this work, the 4-propylcatechol carbonate is used for the two-step synthesis of carbamates under mild reaction conditions. In the first step, 4-propylcatechol carbonate is treated with an alcohol at 50–80 °C in the presence of a Lewis acid catalyst, such as Zn(OAc)2?2 H2O. With liquid alcohols, no solvent is used and with solid alcohols 2-methyltetrahydrofuran is used as solvent. In the second step, the alkyl 2-hydroxy-propylphenyl carbonate intermediates obtained react with amines at room temperature in 2-methyltetrahydrofuran, forming the target carbamates and the byproduct 4-propylcatechol, which can be recycled into a carbonate reactant.
Sequential one-pot access to molecular diversity through aniline aqueous borylation
Erb, William,Albini, Mathieu,Rouden, Jacques,Blanchet, Jrme
, p. 10568 - 10580 (2015/01/08)
On the basis of our recently reported aniline aqueous borylation, molecular diversity was achieved in a one-pot process by combining other reactions such as esterification, Suzuki-Miyaura coupling, hydrogenolysis, or Petasis borono-Mannich.