可见光诱导氧掺杂氮化碳催化苄基碳氧化合成酮OA
Visible Light-Induced Oxygen-Doped Graphitic Carbon Nitride Catalyzed Oxidation of Benzyl Carbons to Ketones
芳基酮骨架广泛存在于药物和功能材料中,发展其高效、绿色的合成方法具有重要意义.近年来,以廉价易得的烷基芳烃为原料,通过可见光催化实现苄基碳的直接氧化,为芳基酮的绿色合成提供了新思路.以三聚氰胺为前驱体,通过高温煅烧、热剥离、热氧化制备了氧掺杂氮化碳(O-g-C3N4).在室温下,以二苯甲烷(Ⅰa)为模板底物、O-g-C3N4为光催化剂,探究溶剂、催化剂用量、反应时间、光源、反应氛围对二苯甲酮(Ⅱa)产率的影响,筛选最优的反应体系为:在室温、紫光照射、氧气氛围下,以CH3CN/H2O(3 mL/3 mL)为溶剂、15 mg O-g-C3N4、反应时间为24 h.在筛选最佳的反应条件下,进行底物拓展,以31%~96%产率得到19种芳香酮类化合物,并通过1HNMR、13CNMR、MS对其结构进行表征,与目标化合物的结构一致.研究结果表明,该反应体系对芳烃、杂环芳烃苄基碳的氧化均展现较好的底物适用性,并推断苄基碳氧化合成芳香酮可能为单电子转移自由基反应历程.此外,O-g-C3N4光催化剂经5次循环利用,氧化产物的产率变化不明显,表明O-g-C3N4具有良好的稳定性以及实际应用性.
Aryl ketone scaffolds are widely found in pharmaceuticals and functional materials,making the development of efficient and green synthetic methods highly significant.Recently,visible light-mediated direct oxidation of benzylic C-H bonds in readily available alkylarenes has provided a novel approach to the green synthesis of aryl ketones.In this paper,oxygen-doped graphitic carbon nitride(O-g-C3N4)was prepared using melamine as the precursor via high-temperature calcination,thermal exfoliation and oxidation.At room temperature,diphenylmethane(Ⅰa)was used as a model substrate and O-g-C3N4 as the photocatalyst to systematically investigate the effects of solvent,catalyst loading,reaction time,light source,and reaction temperature on the yield of benzophenone(Ⅱa).The optimized reaction system was identified as follows:CH3CN/H2O(3 mL/3 mL)as solvent,15 mg of O-g-C3N4,24 h reaction time,room temperature,purple light irradiation,and an oxygen atmosphere.Under the optimized conditions,a broad range of alkylarenes were oxidized to afford 19 aromatic ketones in isolated yields ranging from 31%to 96%.The structures of all products were identified by 1HNMR,13CNMR,and MS,and were consistent with the target compounds.The results demonstrate that this reaction system exhibits good substrate tolerance towards arenes and heteroarenes.Control experiments suggest that the oxidation of benzylic carbons proceeds via a radical-mediated single-electron transfer mechanism.Moreover,the catalyst could be reused for five cycles without significant loss of activity,demonstrating the excellent stability and practical applicability of O-g-C3N4.
赵波;谷嘉宁;潘扬;金甲婧;尚积祯;穆兵
湖州师范学院生命科学学院,浙江湖州 313000湖州师范学院生命科学学院,浙江湖州 313000湖州师范学院生命科学学院,浙江湖州 313000湖州师范学院生命科学学院,浙江湖州 313000湖州师范学院生命科学学院,浙江湖州 313000湖州师范学院生命科学学院,浙江湖州 313000
化学化工
光催化氧掺杂氮化碳苄基碳的氧化绿色合成芳香酮的合成
photocatalysisoxygen doped graphitic carbon nitrideoxidation of benzyl carbongreen synthesissynthesis of aromatic ketone
《化学试剂》 2026 (1)
86-93,8
国家自然科学基金项目(22304054).
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