Maity Sayantan, Ram Farsa, Dhar Basab Bijayi
Department of Chemistry, Shiv Nadar University, Gautam Buddha Nagar, Dadri UP-201314, India.
Polymer Science and Engineering Division, CSIR-National Chemical Laboratory, Dr. Homi Bhabha Road, Pune, Maharashtra 411008, India.
ACS Omega. 2020 Jun 24;5(26):15962-15972. doi: 10.1021/acsomega.0c01231. eCollection 2020 Jul 7.
Synthesis of phosphorous-doped graphitic materials (P-Gc) using phytic acid as a precursor was done in a microwave oven in a cost- and time-effective green way. The material was used as a solid acid catalyst for microwave (MW)-assisted synthesis of β-ketoenamines and Baeyer-Villiger (BV) oxidation. In the case of BV oxidation, hydrogen peroxide (HO) was used as a green oxidant. For β-ketoenamines, in most cases, 100% conversion with an ∼95% yield was achieved in ethyl acetate medium. In solvent-free conditions, the yield of β-ketoenamines was ∼75%. A kinetic study suggested that the resonance stabilization of the positive reaction center happens in the transition state for β-ketoenamine synthesis. In BV oxidation, cyclic ketones were converted to their corresponding cyclic esters in good to high yields (∼80% yield) in a shorter reaction time (6-20 min). As per our knowledge, this is the first report of BV oxidation catalyzed by a heteroatom-doped graphitic material. For BV oxidation, the phosphoric acid functional groups present in P-Gc might increase the electrophilicity of the carbonyl group of the ketones to compensate for the weakness of HO as a nucleophile and a spiro-bisperoxide intermediate has been identified in high-resolution mass spectrometry.
以植酸为前驱体,在微波炉中以经济高效的绿色方式合成了磷掺杂石墨材料(P-Gc)。该材料用作固体酸催化剂,用于微波(MW)辅助合成β-酮烯胺和拜耳-维利格(BV)氧化反应。在BV氧化反应中,过氧化氢(HO)用作绿色氧化剂。对于β-酮烯胺,在大多数情况下,在乙酸乙酯介质中转化率达到100%,产率约为95%。在无溶剂条件下,β-酮烯胺的产率约为75%。动力学研究表明,在β-酮烯胺合成的过渡态中,正反应中心发生了共振稳定作用。在BV氧化反应中,环酮在较短的反应时间(6-20分钟)内以良好至高的产率(约80%产率)转化为相应的环酯。据我们所知,这是第一份关于杂原子掺杂石墨材料催化BV氧化反应的报告。对于BV氧化反应,P-Gc中存在的磷酸官能团可能会增加酮羰基的亲电性,以弥补HO作为亲核试剂的弱点,并且在高分辨率质谱中已鉴定出一种螺双过氧化物中间体。
