典型文献
Vicinal hydroxyl group-inspired selective oxidation of glycerol to glyceric acid on hydroxyapatite supported Pd catalyst
文献摘要:
Selective oxidation of glycerol provides a feasible route towards the sustainable synthesis of high value-added chemicals.Herein,the hy-droxyapatite(HAP)supported palladium(Pd)species were fabricated by impregnation and subsequent calcination.The as-obtained hetero-geneous Pd catalyst afforded not only excellent selectivity to glyceric acid(GLA)up to 90%with 59%conversion of glycerol but also good recyclability by using molecular oxygen as an oxidant under mild conditions.The characterization of catalysts indicated that both the surface basicity and Pd sites on the catalyst played a crucial role in promoting glycerol oxidation.Notably,it demonstrated that the presence of the vicinal hydroxyl group of glycerol molecule can assist the oxidation reaction via forming a coordination between the vicinal hydroxyl group and Ca2+sites on HAP-derived catalysts.In this catalytic process,the secondary hydroxyl of glycerol kept untouched and the primary hydroxyl of glycerol was converted into carboxyl group,while the Pd species acted as active centers for cooperatively promoting the subsequent oxidation to generate GLA.Additionally,this catalytic system can be extended widely for the oxidative conversion of other vicinal diols into the corre-sponding a-hydroxycarboxylic acids selectively.Isotope labeling experiment using H2 18O confirmed that H2O not only acted as solvent but also was involved in the catalytic cycles.On the basis of the results,a possible reaction mechanism has been proposed.The HAP-supported Pd catalytic system has been shown to serve as an effective approach for the upgrading of bio-derived vicinal diols to high value-added chemicals.
文献关键词:
中图分类号:
作者姓名:
Difan Li;Xiuge Zhao;Qingqing Zhou;Bingjie Ding;Anna Zheng;Qingpo Peng;Zhenshan Hou
作者机构:
Key Laboratory for Advanced Materials,Research Institute of Industrial Catalysis,School of Chemistry and Molecular Engineering,East China University of Science and Technology,Shanghai,200237,China
文献出处:
引用格式:
[1]Difan Li;Xiuge Zhao;Qingqing Zhou;Bingjie Ding;Anna Zheng;Qingpo Peng;Zhenshan Hou-.Vicinal hydroxyl group-inspired selective oxidation of glycerol to glyceric acid on hydroxyapatite supported Pd catalyst)[J].绿色能源与环境(英文),2022(04):691-703
A类:
Vicinal,glyceric,droxyapatite,Ca2+sites,hydroxycarboxylic
B类:
hydroxyl,group,inspired,oxidation,glycerol,hydroxyapatite,supported,Pd,Selective,provides,feasible,route,towards,sustainable,synthesis,high,value,added,chemicals,Herein,HAP,palladium,species,were,fabricated,by,impregnation,subsequent,calcination,obtained,hetero,geneous,afforded,not,only,excellent,selectivity,GLA,conversion,but,also,good,recyclability,using,molecular,oxygen,oxidant,under,mild,conditions,characterization,catalysts,indicated,that,both,surface,basicity,played,crucial,role,promoting,Notably,demonstrated,presence,vicinal,molecule,can,assist,reaction,via,forming,coordination,between,derived,In,this,catalytic,process,secondary,kept,untouched,primary,was,converted,into,while,acted,active,centers,cooperatively,generate,Additionally,system,extended,widely,oxidative,other,diols,corre,sponding,acids,selectively,Isotope,labeling,experiment,18O,confirmed,H2O,solvent,involved,cycles,On,basis,results,possible,mechanism,has,been,proposed,shown,serve,effective,approach,upgrading,bio
AB值:
0.522648
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
