623-30-3Relevant articles and documents
Study of the oxidative esterification of furfural catalyzed by Au25(glutathione)18 nanocluster deposited on zirconia
Shahin, Zahraa,Rataboul, Franck,Demessence, Aude
, (2020/11/24)
Au/ZrO2 catalyst prepared from Au25(SG)18 nanoclusters (SG stands for glutathione) deposited on ZrO2 has shown to be an efficient system for the oxidative esterification of furfural with methanol. The influence of the supported nanoclusters was studied and showed that partial calcination of the supported nanoclusters at 300 °C was sufficient for a quantitative formation of methyl-2-furoate even in the absence of a base. In the presence of 0.27 mol% of Au, initial activities up to 250 h?1 were obtained at 100 °C under 6 bar of O2. The reactivity was extended to the oxidative esterification of furfuryl alcohol and the formation of various products and intermediates was discussed.
A selective oxidative valorization of biomass-derived furfural and ethanol with the supported gold catalysts
Gao, Yiqi,Tong, Xinli,Zhang, Haigang
, p. 238 - 245 (2019/06/18)
The oxidative upgrading of renewable furfural (FUR) and ethanol is an important way to produce high-quality liquid fuel and value-added furanic derivatives. In this work, a series of supported Au catalysts were prepared using the colloid-immobilization technique, and further employed for catalytic oxidative condensation of FUR with ethanol in the presence of molecular oxygen. It is found that, with Au@CaO as the catalyst, 85.9% conversion of FUR and 81.8% selectivity of the product furan-2-acrolein were achieved in the absence of any homogeneous basic additive. The effects of different reactions such as reaction time, temperature and catalyst amount were explored in detail. Also, the influences of calcination temperature and amount of protective agent during the preparation of catalyst were investigated. According to the characterization results of catalyst, it is concluded that the synergistic effect of metallic Au and basic site of CaO support plays a significant role on the selective oxidative condensation. At last, a possible reaction mechanism is proposed based on the catalytic principle and experimental results.
Secondary amine-catalyzed [3 + 3] benzannulation to access polysubstituted benzenes through iminium activation
Jiang, Lin,Li, Hang,Zhou, Jiang-Feng,Yuan, Ming-Wei,Li, Hong-Li,Chuan, Yong-Ming,Yuan, Ming-Long
supporting information, p. 336 - 343 (2018/02/09)
An organocatalytic [3 + 3] benzannulation to access polysubstituted benzenes from readily available α,β-unsaturated aldehydes and 1,3-bis(phenylsulfonyl)propene or 4-sulfonylcrotonates is described. The key reaction step is considered to be the iminium ac