摘要
With the development of the human economy and green chemistry, people pay much more attention to environmental safety. Correspondingly, mesoporous TiO_2 and its correlated photocatalysts are able to help people seek for better life. In this review, first of all, we briefly introduce the preparations and applications of mesoporous TiO_2-SiO_2 materials, which exhibit excellent performance in pollutants decomposition and H_2 evolution in photocatalysis. Then, we review the mesoporous composites of TiSiO_2 materials, which are ideal materials used in the photoreduction of air pollutants such as CO_2, NO and NO_2. It is powerfully evident from the literature surveys that these TiO_2 based mesoporous photocatalysts possess a large potential in environment and energy development.
With the development of the human economy and green chemistry, people pay much more attention to environmental safety. Correspondingly, mesoporous TiO_2 and its correlated photocatalysts are able to help people seek for better life. In this review, first of all, we briefly introduce the preparations and applications of mesoporous TiO_2-SiO_2 materials, which exhibit excellent performance in pollutants decomposition and H_2 evolution in photocatalysis. Then, we review the mesoporous composites of TiSiO_2 materials, which are ideal materials used in the photoreduction of air pollutants such as CO_2, NO and NO_2. It is powerfully evident from the literature surveys that these TiO_2 based mesoporous photocatalysts possess a large potential in environment and energy development.
引文
[1]J.Schneider,M.Matsuoka,M.Takeuchi,et al.,Chem.Rev.114(2014)9919-9986.
[2]A.Fujishima,K.Honda,Nature 238(1972)37-38.
[3]O.Carp,C.L.Huisman,A.Reller,Prog.Solid.State.Chem.32(2004)33-177.
[4]X.T.Gao,E.I.Wachs,Catal.Today 51(1999)233-254.
[5]D.Li,H.Haneda,S.Hishita,N.Ohashi,N.K.Labhsetwar,J.Fluorine Chem.126(2005)69-77.
[6]M.Xing,D.Qi,J.Zhang,et al.,J.Catal.294(2012)37-46.
[7]C.Kang,L.Jing,T.Guo,et al.,J.Phys.Chem.C[138_TD$IF]1 3(2009)1006-1013.
[8]H.Tong,N.Enomoto,M.Inada,Y.Tanaka,J.Hojo,Electrochim.Acta 130(2014)329-334.
[9]M.S.Morey,S.O’Brien,S.Schwarz,G.D.Stucky,Chem.Mater.12(2000)898-911.
[10]V.M.Gun’ko,V.I.Zarko,V.V.Turov,et al.,J.Colloid Interface Sci.198(1998)141-156.
[11]Z.Ding,X.Hu,G.Q.Lu,P.L.Yue,P.F.Greenfield,Langmuir 16(2000)6216-6222.
[12]A.Tricoli,M.Righettoni,S.E.Pratsinis,Langmuir 25(2009)12578-12584.
[13]G.Fan,B.Zou,S.Cheng,L.Zheng,J.Ind.Eng.Chem.16(2010)220-223.
[14]R.Dong,C.Na,H.Zhang,Z.Chen,C.Jin,Mater.Design 89(2016)830-838.
[15]C.Ren,W.Qiu,Y.Chen,Sep.Purif.Technol.107(2013)264-272.
[16]F.Mei,C.Liu,L.Zhang,et al.,J.Crys.Growth 292(2006)87-91.
[17]I.A.Siddiquey,T.Furusawa,M.Sato,K.Honda,N.Suzuki,Dyes Pigments 76(2008)754-759.
[18]J.Singh,S.A.Khan,J.Shah,R.K.Kotnala,S.Mohapatra,Appl.Surf.Sci.422(2017)953-961.
[19]D.Li,Dyes Pigments 63(2004)71-76.
[20]W.Zhao,D.Li,B.He,et al.,Dyes Pigments 64(2005)265-270.
[21]C.He,B.Tian,J.Zhang,Microporous Mesoporous Mater.126(2009)50-57.
[22]Y.Li,P.Bastakoti Bishnu,M.Imura,et al.,Chem.Eur.J.20(2014)6027-6032.
[23]J.Bahadur,D.Sen,S.Mazumder,et al.,Langmuir 28(2012)11343-11353.
[24]E.Pabón,J.Retuert,R.Quijada,A.Zarate,Microporous Mesoporous Mater.67(2004)195-203.
[25]V.Ramamoorthy,K.Kannan,A.I.Joice Joseph,T.Kanagaraj,S.Thiripuranthagan,J.Nanosci.Nanotechnol.16(2016)9980-9986.
[26]X.Li,J.Wang,M.Li,et al.,Chin.Chem.Lett.29(2018)527-530.
[27]L.Yanyan,T.A.Kurniawan,Z.Ying,A.B.Albadarin,G.Walker,J.Mol.Liq.243(2017)761-770.
[28]C.Ren,W.Qiu,H.Zhang,Z.He,Y.Chen,J.Mol.Catal.A-Chem.398(2015)215-222.
[29]H.Jafari,S.Afshar,Photochem.Photobio.92(2016)87-101.
[30]C.Chen,W.Ma,J.Zhao,Chem.Soc.Rev.39(2010)4206-4219.
[31]S.Artkla,W.Kim,W.Choi,J.Wittayakun,Appl.Catal.B:[139_TD$IF]Environ.91(2009)157-164.
[32]D.Jyothi,P.Deshpande,B.R.Venugopal,S.Chandrasekaran,G.Madras,J.Chem.Sci.124(2012)385-393.
[33]H.H.Tseng,W.W.Lee,M.C.Wei,et al.,Chem.Eng.J.210(2012)529-538.
[34]Y.Xu,C.H.Langford,J.Phys.Chem.B 101(1997)3115-3121.
[35]K.De Witte,V.Meynen,M.Mertens,et al.,Appl.Catal.B:[139_TD$IF]Environ.84(2008)125-132.
[36]J.Aguado,R.van Grieken,M.J.López-Mu?oz,J.Marugán,Catal.Today 75(2002)95-102.
[37]M.Xing,D.Qi,J.Zhang,et al.,J.Catal.294(2012)37-46.
[38]Z.Yan,J.He,L.Guo,et al.,Catalysts 7(2017)1-13.
[39]J.Wang,Z.Gu,J.Zhang,et al.,Micro Nano Lett.(2019)323-328.
[40]G.Sui,J.Li,T.Liu,et al.,Mater.Express.6(2016)1-9.
[41]W.Zhang,H.He,Y.Tian,et al.,Chem.Sci.(2019)1664-1670.
[42]P.Zhou,J.Yu,M.Jaroniec,Adv.Mater.26(2014)4920-4935.
[43]T.V.Nguyen,O.B.Yang,Catal.Today 87(2003)69-75.
[44]N.Rungjaroentawon,S.Onsuratoom,S.Chavadej,Int.J.Hydrogen Energy 37(2012)11061-11071.
[45]C.M.Wu,R.Peng,N.M.Dimitrijevic,T.Rajh,R.T.Koodali,Int.J.Hydrogen Energy39(2014)127-136.
[46]M.Hu,Z.Xing,Y.Cao,et al.,Appl.Catal.B:[139_TD$IF]Environ.226(2018)499-508.
[47]T.V.Nguyen,S.Kim,O.B.Yang,Catal.Commun.5(2004)59-62.
[48]M.Xing,J.Zhang,B.Qiu,et al.,Small(2014)1920-1929.
[49]L.Yuan,C.Han,M.Pagliaro,Y.J.Xu,J.Phys.Chem.C 120(2016)265-273.
[50]S.Zhang,J.Wang,X.Wang,J.Natural.Gas.Chem.17(2008)179-183.
[51]W.N.Wang,J.Park,P.Biswas,Catal.Sci.Technol.1(2011)593-600.
[52]C.Dong,M.Xing,J.Zhang,J.Phys.Chem.Lett.7(2016)2962-2966.
[53]C.Dong,C.Lian,S.Hu,et al.,Nat.Commun.9(2018)1252.
[54]H.Nur,S.Ikeda,B.Ohtani,Chem.Commun.(2000)2235-2236.
[55]M.Anpo,H.Yamashita,K.Ikeue,et al.,Catal.Today 44(1998)327-332.
[56]M.Takeuchi,S.Dohshi,T.Eura,M.Anpo,J.Phys.Chem.B 107(2003)14278-14282.
[57]M.Takeuchi,H.Yamashita,M.Matsuoka,et al.,Catal.Lett.66(2000)185-187.
[58]M.Anpo,N.Aikawa,Y.Kubokawa,et al.,J.Phys.Chem.89(1985)5017-5021.
[59]M.Anpo,H.Yamashita,Y.Ichihashi,Y.Fujii,M.Honda,J.Phys.Chem.B 101(1997)2632-2636.
[60]M.Anpo,Nouv.Cim.D 19(1997)1641-1648.
[61]M.Anpo,J.CO2.Utiliz.1(2013)8-17.
[62]H.Yamashita,M.Anpo,Catal.Surv.Asia 8(2004)35-45.
[63]Y.Hu,D.Rakhmawaty,M.Matsuoka,M.Takeuchi,M.Anpo,J.Porous.Mater.13(2006)335-340.
[64]M.Anpo,K.Chiba,J.Mol.Catal.74(1992)207-212.
[65]H.Yamashita,A.Shiga,S.Kawasaki,et al.,Energy Convers.Manag.36(1995)617-620.
[66]K.Ikeue,H.Yamashita,M.Anpo,Chem.Lett.1999(1999)1135-1136.
[67]K.Ikeue,H.Yamashita,M.Anpo,T.Takewaki,J.Phys.Chem.B 105(2001)8350-8355.
[68]K.Ikeue,S.Nozaki,M.Ogawa,M.Anpo,Catal.Today 74(2002)241-248.
[69]H.Yamashita,M.Honda,M.Harada,et al.,J.Phys.Chem.B 102(1998)10707-10711.
[70]K.Ikeue,S.Nozaki,M.Ogawa,M.Anpo,Catal.Today 74(2002)241-248.
[71]K.Ikeue,S.Nozaki,M.Ogawa,M.Anpo,Catal.Lett.80(2002)111-114.
[72]Y.Shioya,K.Ikeue,M.Ogawa,M.Anpo,Appl.Catal.A Gen.254(2003)251-259.
[73]M.Anpo,J.Thomas,Chem.Commun.(2006)3273-3278.