Bohre, Ashish published the artcileSingle-Step Production of Bio-Based Methyl Methacrylate from Biomass-Derived Organic Acids Using Solid Catalyst Material for Cascade Decarboxylation-Esterification Reactions, Application In Synthesis of 617-52-7, the publication is ACS Sustainable Chemistry & Engineering (2021), 9(7), 2902-2911, database is CAplus.
This study shows the direct chem. conversion of a widely available carbohydrate-derived itaconic acid/methanol into the Me methacrylate (MMA) ester via cascade decarboxylation/esterification reactions has been accomplished as a first-time occurrence over solid catalysts. The state-of-the-art Pt/Al2O3 catalytic processing displayed an optimum MMA compound selectivity (38.2 mol %) in the presence of an aqueous solution mixture with an alk. base substance. To eliminate issues associated with the utilization of precious-metal materials, corrosive water-dissolved hydroxides, and deactivation, hexaaluminate was introduced for active stable decomposition in the production of MMA. Since defined acidic/basic sites are necessary to promote intermediates, barium hexaaluminate, calcium hexaaluminate and lanthanum hexaaluminate were prepared by tuning their phys. properties. To shed light on reactivity, the catalysts were characterized by extensive microscopic and spectroscopic techniques. Barium hexaaluminate (BHA) was found to have the highest turnover frequency (TOF) among all tested values. Detailed exptl./structural investigations indicated that a medium-strength Bronsted/weak Lewis boundary along with peculiar layered structure, surface defects, and characteristic area are strongly correlated with the activity/stability of BHA. A plausible elementary mechanism for this step transformation was also hypothesized, detailing protonated surface-bonded reactive precursor species.
ACS Sustainable Chemistry & Engineering published new progress about 617-52-7. 617-52-7 belongs to esters-buliding-blocks, auxiliary class Alkenyl,Aliphatic hydrocarbon chain,Ester, name is Dimethyl itaconate, and the molecular formula is C7H10O4, Application In Synthesis of 617-52-7.
Referemce:
https://en.wikipedia.org/wiki/Ester,
Ester – an overview | ScienceDirect Topics