非均相催化剂在光催化烯烃环氧反应中的应用及机理研究进展
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摘要
本文以金属催化剂Ti O2,V,Mo,Cu,无机分子筛IMCM,SBA-15催化剂以及其他催化剂为线索,介绍了光催化剂在烯烃环氧化反应中的应用及机理研究,并对其未来发展方向进行了展望。本文着重从这几个方面进行介绍。
This paper reviewed the design strategies of metal catalysts TiO_2,V,Mo,Cu、inorganic molecular sieve catalysts IMCM-41 SBA-15 and other catalysts.Besides the application and development of photocatalysts in olefin epoxidationthe are prospcted.This article focuses on these aspects.
This paper reviewed the design strategies of metal catalysts TiO_2,V,Mo,Cu、inorganic molecular sieve catalysts IMCM-41 SBA-15 and other catalysts.Besides the application and development of photocatalysts in olefin epoxidationthe are prospcted.This article focuses on these aspects.
引文
[1]汪家喜,魏晓骏,沈佳宇,等.光催化选择性合成有机物[J].Progress in Chemistry,2014,26(9):1460-1470.
[2]张楠,张燕辉,潘晓阳,等.光催化选择性氧化还原体系在有机合成中的研究进展[J].中国科学:化学,2011,41(7):1097-1111.
[3]姜建辉,邓晨强,曹钰,等.Y和Si共掺杂纳米Ti O2的制备及光催化性能[J].Journal of the Chinese Ceramic Society,2019,47(7):1-9.
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[5]Hashimoto K,Irie H,Fujishima A.Ti O2 Photocatalysis:A Historical Overview and Future Prospects[J].Japanese Journal of Applied Physics,2005,44(12):8269-8285.
[6]Tachikawa T,Fujitsuka M,Majima T.Mechanistic Insight into the TiO2Photocatalytic Reactions:Design of New Photocatalysts[J].The Journal of Chemistry,C,2007,111(14):5259-5275.
[7]Kim T W,Ha H W,Pake M J,et al.Mesoporous Iron Oxide-Layered Titanate Nanohybrids:Soft-Chemical Synthesis, Characterization, and Photocatalyst Applicationl[J].The Journal of Physical ChemistryC,2008,112(38):14853-14862.
[8]Jhung S H,Chang J S,Park S E,et al.Template-Free Synthesis of the Nanoporous Nickel Phosphate VSB-5 under Microwave Irradiation[J].Chemistry of Materials,2004,16(8):1394-1396.
[9]Fan W,Wu P,Namba S,et al.Synthesis and catalytic properties of a new titanosilicate molecular sieve with the structure analogous to MWW-type lamellar precursor[J].Journal of Catalysis,2006,243(1):183-191.
[10]Ouidri S,Guillard C,Caps V,et al.Epoxidation of olefins on photoirradiated TiO2-pillared clays[J].Applied Clay Science,2010,48(3):431-437.
[11]Amano F,Tanaka T,Funabiki T.Steady-state photocatalytic epoxidation of propene by O2 over V2O5SiO2 photocatalysts[J].Langmuir,2004,20(10):4236-4240.
[12]Amano T, Tanaka F. Modification of photocatalytic center for photo-epoxidation of propylene by rubidiumion addition to V2O5/SiO2[J].Catalysis Communications,2005,6(4):269-273.
[13]Chen G,Chen L J,Ma L,et al.Photocatalytic oxidation of alkenes and alcohols in water by a manganese(V)nitrido complex Communications[J].Chemical Communication,2016,52(59):9271-9274.
[14]Shen Y,Jiang P,Wang Y,et al.Mo3@SiO2 nanoreactors:Synthesis with a thermal decomposition strategy and catalysis on alkenes epoxidation[J].Journal of Solid State Chemistry,2015,264:156-164.
[15]Huang Y,Liu Z,Gao G,et al.Stable Copper Nanoparticle Photocatalysts for Selective Epoxidation of Alkenes with Visible Light[J].ACS Catlysis,2017,7(8):4975-4985.
[16]Tanaka T,Ooe M,Funabiki T,et al.Formation of an epoxide intermediate in the photo-oxidation of alkenes over silica-supported vanadium oxide[J].Journal of the Chemical Society,Faraday Transactions 1:Physical Chemical in Condensed Phases,1986,82(1):35.
[17]Bhunia S,Jana S,Saha D,et al.Catalytic olefin epoxidation over cobalt(ii)-containing mesoporous silica by molecular oxygen in dimethylformamide medium[J].Catalytic Science Technol,2014,4(6):1820-1828.
[18]Chan H Y,Nguyen V H,Wu J,et al.Real-Time Raman Monitoring during Photocatalytic Epoxidation of Cyclohexene over V-Ti/MCM-41Catalysts[J].Catalysts,2015,5(2):518-533.
[19]黄勇,谌伟庆,石秋杰,等.介孔分子筛SBA-15在催化领域的应用进展[J].化工进展,2009,28(12):2140-2144.
[20]曹青喜.基于金属改性介孔分子筛的光催化苯乙烯环氧化研究[D].淮北:淮北师范大学,2014.
[21]Novosekov K,Geim A,Morozor S V,et al.Electric field effect in atomically thin carbob films[J].Science,2004,306(5696):666-669.
[22]Bian G,Jiang P,Wang F,et al.Light driven epoxidation of olefins using a graphene oxide/g-C3N4 supported Mo(Salen)complex[J].New Journal of Chemistry,2018,42(1),85-90.
[2]张楠,张燕辉,潘晓阳,等.光催化选择性氧化还原体系在有机合成中的研究进展[J].中国科学:化学,2011,41(7):1097-1111.
[3]姜建辉,邓晨强,曹钰,等.Y和Si共掺杂纳米Ti O2的制备及光催化性能[J].Journal of the Chinese Ceramic Society,2019,47(7):1-9.
[4]Herrmann J M. From catalysis by metals to bifunctional photocatalysis[J].Topics in Catalysis.2006,39(1/2):3-10.
[5]Hashimoto K,Irie H,Fujishima A.Ti O2 Photocatalysis:A Historical Overview and Future Prospects[J].Japanese Journal of Applied Physics,2005,44(12):8269-8285.
[6]Tachikawa T,Fujitsuka M,Majima T.Mechanistic Insight into the TiO2Photocatalytic Reactions:Design of New Photocatalysts[J].The Journal of Chemistry,C,2007,111(14):5259-5275.
[7]Kim T W,Ha H W,Pake M J,et al.Mesoporous Iron Oxide-Layered Titanate Nanohybrids:Soft-Chemical Synthesis, Characterization, and Photocatalyst Applicationl[J].The Journal of Physical ChemistryC,2008,112(38):14853-14862.
[8]Jhung S H,Chang J S,Park S E,et al.Template-Free Synthesis of the Nanoporous Nickel Phosphate VSB-5 under Microwave Irradiation[J].Chemistry of Materials,2004,16(8):1394-1396.
[9]Fan W,Wu P,Namba S,et al.Synthesis and catalytic properties of a new titanosilicate molecular sieve with the structure analogous to MWW-type lamellar precursor[J].Journal of Catalysis,2006,243(1):183-191.
[10]Ouidri S,Guillard C,Caps V,et al.Epoxidation of olefins on photoirradiated TiO2-pillared clays[J].Applied Clay Science,2010,48(3):431-437.
[11]Amano F,Tanaka T,Funabiki T.Steady-state photocatalytic epoxidation of propene by O2 over V2O5SiO2 photocatalysts[J].Langmuir,2004,20(10):4236-4240.
[12]Amano T, Tanaka F. Modification of photocatalytic center for photo-epoxidation of propylene by rubidiumion addition to V2O5/SiO2[J].Catalysis Communications,2005,6(4):269-273.
[13]Chen G,Chen L J,Ma L,et al.Photocatalytic oxidation of alkenes and alcohols in water by a manganese(V)nitrido complex Communications[J].Chemical Communication,2016,52(59):9271-9274.
[14]Shen Y,Jiang P,Wang Y,et al.Mo3@SiO2 nanoreactors:Synthesis with a thermal decomposition strategy and catalysis on alkenes epoxidation[J].Journal of Solid State Chemistry,2015,264:156-164.
[15]Huang Y,Liu Z,Gao G,et al.Stable Copper Nanoparticle Photocatalysts for Selective Epoxidation of Alkenes with Visible Light[J].ACS Catlysis,2017,7(8):4975-4985.
[16]Tanaka T,Ooe M,Funabiki T,et al.Formation of an epoxide intermediate in the photo-oxidation of alkenes over silica-supported vanadium oxide[J].Journal of the Chemical Society,Faraday Transactions 1:Physical Chemical in Condensed Phases,1986,82(1):35.
[17]Bhunia S,Jana S,Saha D,et al.Catalytic olefin epoxidation over cobalt(ii)-containing mesoporous silica by molecular oxygen in dimethylformamide medium[J].Catalytic Science Technol,2014,4(6):1820-1828.
[18]Chan H Y,Nguyen V H,Wu J,et al.Real-Time Raman Monitoring during Photocatalytic Epoxidation of Cyclohexene over V-Ti/MCM-41Catalysts[J].Catalysts,2015,5(2):518-533.
[19]黄勇,谌伟庆,石秋杰,等.介孔分子筛SBA-15在催化领域的应用进展[J].化工进展,2009,28(12):2140-2144.
[20]曹青喜.基于金属改性介孔分子筛的光催化苯乙烯环氧化研究[D].淮北:淮北师范大学,2014.
[21]Novosekov K,Geim A,Morozor S V,et al.Electric field effect in atomically thin carbob films[J].Science,2004,306(5696):666-669.
[22]Bian G,Jiang P,Wang F,et al.Light driven epoxidation of olefins using a graphene oxide/g-C3N4 supported Mo(Salen)complex[J].New Journal of Chemistry,2018,42(1),85-90.