典型文献
Built in electric field boosted photocatalytic performance in a ferroelectric layered material SrBi2Ta2O9 with oriented facets:Charge separation and mechanism insights
文献摘要:
Antibiotics have received increasing attention due to their potential adverse effects on aquatic life and human health.How to efficiently degrade them into harmless substances is a challenging subject.Ferro-electric materials with a built-in electric field can offer a strong separation ability for the photoinduced-charge pairs and are now found to be used as photocatalysts.Herein,a series of different morphologies of SrBi2Ta2O9 ferroelectric photocatalysts with high antibiotic degradation efficiency have been success-fully synthesized through a molten salt method.With the addition of KCI,SrBi2Ta2O9(SBTO 3)with ex-posed(001)facets shows the most excellent photocatalytic activity for decomposing tetracycline(TC)and ciprofloxacin(CIP)under visible light illumination(A>420 nm).The rate constants of SBTO 3 for TC and CIP degradation are 1.38×10-1 and 4.54×10-2 min-1,which are 18 and 138 times that of the unmod-ified sample,respectively.The enhancement of photocatalytic performance is mainly attributed to the spontaneous polarization electric field along the[001]direction which provides a strong driven force for the separation of photoinduced charges.The KPFM results also confirm that the superior photocatalytic activity is consistent with the big large surface potential changes before and after light irradiation.The possible degradation pathways and intermediates of TC and CIP were well analyzed by DFT calculation and LC-MS.The results highlight that morphology control of the ferroelectric materials exhibits enhanced photocatalytic performance for the degradation of the antibiotic.
文献关键词:
中图分类号:
作者姓名:
Biru Liao;Xiaomin Liao;Huiyuan Xie;Yuanchu Qin;Yi Zhu;Yang Yu;Sen Hou;Yuanming Zhang;Xiaoyun Fan
作者机构:
College of Chemistry and Materials Science,Jinan University,Guangzhou 510632,China;Guangdong Key Laboratory of Environmental Pollution and Health,School of Environment,Jinan University,Guangzhou 510632,China;Guangdong Provincial Key Laboratory of Functional Supramolecular Coordination Materials and Applications,Jinan University,Guangzhou 510632,China
文献出处:
引用格式:
[1]Biru Liao;Xiaomin Liao;Huiyuan Xie;Yuanchu Qin;Yi Zhu;Yang Yu;Sen Hou;Yuanming Zhang;Xiaoyun Fan-.Built in electric field boosted photocatalytic performance in a ferroelectric layered material SrBi2Ta2O9 with oriented facets:Charge separation and mechanism insights)[J].材料科学技术(英文版),2022(28):222-233
A类:
SrBi2Ta2O9,Ferro,SBTO,unmod
B类:
Built,field,boosted,photocatalytic,performance,ferroelectric,layered,oriented,facets,Charge,separation,mechanism,insights,Antibiotics,have,received,increasing,attention,due,their,potential,adverse,effects,aquatic,life,human,health,How,efficiently,degrade,them,into,harmless,substances,challenging,subject,materials,built,can,offer,strong,ability,photoinduced,pairs,are,now,found,used,photocatalysts,Herein,series,different,morphologies,antibiotic,degradation,efficiency,been,success,fully,synthesized,through,molten,salt,method,With,addition,KCI,posed,shows,most,excellent,activity,decomposing,tetracycline,ciprofloxacin,CIP,under,visible,illumination,rate,constants,which,times,that,ified,sample,respectively,enhancement,mainly,attributed,spontaneous,polarization,along,direction,provides,driven,force,charges,KPFM,results,also,confirm,superior,consistent,big,large,surface,changes,before,after,irradiation,possible,pathways,intermediates,were,well,analyzed,by,DFT,calculation,LC,highlight,morphology,control,exhibits,enhanced
AB值:
0.589607
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