Facile synthesis of hierarchical ZnO microstructures with enhanced photocatalytic activity

[1]Qi K.Z., Yang J.Q., Fu J.Q., Wang G.C., Zhu L.J., Zheng W.J., CrystEngComm, 15 (2013), 6729.QiK.Z.YangJ.Q.FuJ.Q.WangG.C.ZhuL.J.ZhengW.J.CrystEngComm152013672910.1039/c3ce27007fSearch in Google Scholar

[2]Yu J.G., Dai G.P., Xiang, Q.J., Jaroniec M., J. Mater. Chem., 21 (2011), 1049.YuJ.G.DaiG.P.XiangQ.J.JaroniecM.J. Mater. Chem212011104910.1039/C0JM02217ASearch in Google Scholar

[3]Liu S.W., Huang G.C., Yu J.G., Ng T.W., Yip H.Y., Wong P.K., ACS Appl. Mater. Inter, 6 (2014), 2407.LiuS.W.HuangG.C.YuJ.G.NgT.W.YipH.YWongP.K.ACS Appl. Mater. Inter62014240710.1021/am404797524460022Search in Google Scholar

[4]Xiang Q.J., Yu J.G., Wang W.G., Jaroniec M., Chem. Commun., 47 (2011), 6906.XiangQ.J.YuJ.G.WangW.G.JaroniecM.Chem. Commun472011690610.1039/c1cc11740h21556416Search in Google Scholar

[5]Qi L.F., Cheng B., How., Liu G., Yu J.G., Chem-NanoMat., 1 (2015), 58.QiL.F.ChengBHowLiuG.YuJ.G.Chem-NanoMat120155810.1002/cnma.201400013Search in Google Scholar

[6]Jung S., Cho W., Lee H.J., Oh M., Angew. Chem. Int. Edit., 48 (2009), 1459.JungS.ChoW.LeeH.J.OhM.Angew. Chem. Int. Edit482009145910.1002/anie.20080481619072968Search in Google Scholar

[7]Qi K.Z., Wang Y., Wang R.D., Wu D., Li G.-D., J. Mater. Chem. C, 4 (2016), 1895.QiK.Z.WangYWangR.D.WuDLiG.-D.J. Mater. Chem. C42016189510.1039/C5TC04232ASearch in Google Scholar

[8]QI K.Z., Selvaraj R., Fahdi T., Ai-Kindy S., Kim Y., Tai C.-W., Sillanpaa M., Mater. Lett., 166 (2016), 116.QiK.Z.SelvarajR.FahdiT.Ai-KindyS.KimYTaiC.-W.SillanpaaM.Mater. Lett166201611610.1016/j.matlet.2015.12.044Search in Google Scholar

[9]Zhang J., Sun L., Yin J., Su H., Liao C., Yan C., Chem. Mater., 14 (2002), 4172.ZhangJ.SunL.YinJ.SuH.LiaoC.YanC.Chem. Mater142002417210.1021/cm020077hSearch in Google Scholar

[10]Gao P.X., Wang Z.L., J. Am. Chem. Soc, 125 (2003), 11299.GaoP.X.WangZ.L.J. Am. Chem. Soc12520031129910.1021/ja035569p16220952Search in Google Scholar

[11]Wang X.D., Summers C.J., Wang Z.L., Nano Lett., 4 (2004), 423.WangX.D.SummersC.J.WangZ.L.Nano Lett4200442310.1021/nl035102c25427146Search in Google Scholar

[12]Lao J.Y, Wen J.G., Ren Z.F., Nano Lett., 2 (2002), 1287.LaoJ.YWenJ.G.RenZ.F.Nano Lett22002128710.1021/nl025753tSearch in Google Scholar

[13]Kurtz M., Strunk J., Hinrichsen O., Muhler M., Fink K., Meyer B., Woll C., Angew. Chem., Int. Edit., 44 (2005), 2790.KurtzM.StrunkJ.HinrichsenO.MuhlerM.FinkK.MeyerB.WollCAngew. Chem., Int. Edit442005279010.1002/anie.20046237415806538Search in Google Scholar

[14]Ko S.H., Lee D., Kang H.W., Nam K.H., Yeo J.Y., Hong S.J., Grigoropoulos C.P., Sung H.J., Nano Lett., 11 (2011),666.KoS.H.LeeDKangH.W.NamK.H.YeoJ.YHongS.J.GrigoropoulosC.P.SungH.J.Nano Lett11201166610.1021/nl103796221207931Search in Google Scholar

[15]Arya S.K., Saha S., Ramirez-Vick J.E., Gupta V., Bhansali S., Singh S.P., Anal. Chim. Acta, 737 (2012), 1.AryaS.K.SahaS.Ramirez-VickJ.E.GuptaV.BhansaliS.SinghS.P.Anal. Chim. Acta7372012110.1016/j.aca.2012.05.04822769031Search in Google Scholar

[16]Zhai T., Li L., Ma Y., Liao M., Wang X., Fang X., Yao J., Bando Y., Golberg D., Chem. Soc. Rev., 40 (2011),2986.ZhaiT.LiL.MaYLiaoM.WangX.FangX.YaoJ.BandoYGolbergD.Chem. Soc. Rev402011298610.1039/c0cs00126k21409231Search in Google Scholar

[17]Peng Y, Xu A.W., Deng B., Antonietti M., Colfen H., J. Phys. Chem. B, 110 (2006), 2988.PengYXuA.W.DengB.AntoniettiM.ColfenHJ. Phys. Chem. B1102006298810.1021/jp056246d16494299Search in Google Scholar

[18]Boal A.K., Ilhan F., Derouchey J.E., Thurn-Albrecht T., Russell T.P., Rotello V.M., Nature, 404 (2000), 746.BoalA.K.IlhanF.DeroucheyJ.E.Thurn-albrechtT.RussellT.P.RotelloV.M.Nature404200074610.1038/3500803710783884Search in Google Scholar

[19]Shi R.X., Yang P., Wang J.R., Zhang A.Y, Zhu Y.N., Cao Y.Q., Ma Q., CrystEngComm, 14 (2012), 5996.ShiR.X.YangP.WangJ.R.ZhangA.YZhuY.N.CaoY.Q.MaQ.CrystEngComm142012599610.1039/c2ce25606aSearch in Google Scholar

[20]Wen M.W., Yang B.F., Yan H.W., Fu Z.P., Cai C., Liu K.P., Chen Y.J., Xu J., Fu S.Q., Zhang S.Y., J. Nanosci. Nanotechno., 9 (2009), 2038.WenM.W.YangB.F.YanH.W.FuZ.P.CaiCLiuK.P.ChenY.J.XuJ.FuS.Q.ZhangS.Y.J. Nanosci. Nanotechno92009203810.1166/jnn.2009.39219435077Search in Google Scholar

[21]Cauda V., Pugliese D., Garino N., Sacco A., Bianco S., Bella F., Lamberti A., Gerbaldi C., Energy, 65 (2014), 639.CaudaV.PuglieseD.GarinoN.SaccoA.BiancoS.BellaF.LambertiA.GerbaldiCEnergy65201463910.1016/j.energy.2013.12.025Search in Google Scholar

[22]Du W.M., Qian X.F., Niu X.S., Gong, Q., Cryst. Growth Des., 7 (2007), 2733.DuW.M.QianX.F.NluX.S.GongQ.Cryst. Growth Des72007273310.1021/cg070088tSearch in Google Scholar

[23]Burton W.K., Cabrera Ν., Frack F.C., Philos. T. R. Soc. A, 243(1951), 299.BurtonW.K.CabreraN.FrackF.C.Philos. T. R. Soc. A2431951299Search in Google Scholar

[24]Qi K.Z., Yu J., Chen Κ., Cryst. Res. Technol., 48 (2013), 1083.QiK.Z.YuJ.ChenK.Cryst. Res. Technol482013108310.1002/crat.201300282Search in Google Scholar

[25]Cheng Z.P., Xu J.M., Zhong H., Chu X.Z., Song J., Mater. Lett., 65 (2011), 2047.ChengZ.P.XuJ.M.ZhongH.ChuX.Z.SongJ.Mater. Lett652011204710.1016/j.matlet.2011.04.021Search in Google Scholar

[26]Prabakar S., Bumby C.W., Tilley R.D., Chem. Mater., 21 (2009), 1725.PrabakarS.BumbyC.W.TilleyR.D.Chem. Mater212009172510.1021/cm900110hSearch in Google Scholar

[27]Wang C.Q., Chen D.R., Jiao X.L., J. Phys. Chem. C, 113(2009),7714.WangC.Q.ChenD.R.JiaoX.L.J. Phys. Chem. C1132009771410.1021/jp809855dSearch in Google Scholar

[28]Yu X.X., Yu J.G., Cheng B., Jaroniec M., J. Phys. Chem. C, 113 (2009), 17527.YuX.X.YuJ.G.ChengBJaroniecM.J. Phys. Chem. C11320091752710.1021/jp906992rSearch in Google Scholar

[29]Tian G.H., Chen Y.J., Zhou W., Pan K., Dong Y.Z., TIAN C.G., Fu H.G., J. Mater. Chem., 21 (2011), 887.TianG.H.ChenY.J.ZhouW.PanK.DongY.Z.TianC.G.FuH.G.J. Mater. Chem21201188710.1039/C0JM03040FSearch in Google Scholar

[30]Zhu L.P., Liao G.H., Yang Y., Xiao H.M., Wang J.F., Fu S.Y., Nanoscale Res. Lett., 4 (2009), 550.ZhuL.P.LiaoG.H.YangY.XiaoH.M.WangJ.F.FuS.Y.Nanoscale Res. Lett4200955010.1007/s11671-009-9279-9289429720596326Search in Google Scholar