热卖商品
新闻详情
MOFs催化剂的设计合成与应用研究进展
来自 : www.hgxx.org/CN/abstract/abstr
发布时间:2021-03-25
[1] Ferey G,Mellot-Draznieks C,Serre C,et al.Crystallized frameworks with giant pores:are there limits to the possible?[J].Cheminform,2005,36(29):217-225.
[2] Hill R J,Long D L,Champness N R,et al.New approaches to the analysis of high connectivity materials:design frameworks based upon 44- and 63-subnet tectons[J].Accounts of Chemical Research,2005,38(4):335-338.
[3] Chen B,Zhao X,Putkham A,et al.Surface interactions and quantum kinetic molecular sieving for H2 and D2 adsorption on a mixed metal-organic framework material[J].Journal of the American Chemical Society,2008,130(20):6411-6423.
[4] Chen B,Wang L,Zapata F,et al.A luminescent microporous metal-organic framework for the recognition and sensing of anions[J].Journal of the American Chemical Society,2008,130(21):6718-6719.
[5] Wu M X,Yang Y W.Metal-organicframework (MOF)-based drug/cargo delivery and cancer therapy[J].Advanced Materials,2017,29(23):1606134.
[6] Dybtsev D N,Nuzhdin A L,Chun H,et al.A homochiral metal-organic material with permanent porosity,enantioselective sorption properties,and catalytic activity[J].Angew Chem Int Ed Engl,2010,45(6):916-920.
[7] Furukawa H,Ko N,Yong B G,et al.Ultrahigh porosity in metal-organic frameworks[J].Science,2010,329(5990):424-428.
[8] 秦茜,孙玉绣,王乃鑫,等.表面修饰在MOF薄膜制备中的应用[J].化工进展,2017,36(4):1306-1315.
[9] Philipp M,Fabian S,Sven Z,et al.Post-synthetic shaping of porosity and crystal structure of,ln-bipy-MOFs by thermal treatment[J].Molecules,2015,20(7):12125-12153.
[10] Song F,Zhang T,Wang C,et al.Chiral porous metal-organic frameworks with dual active sites for sequential asymmetric catalysis[J].Proceedings of the Royal Society A Mathematical Physical Engineering Sciences,2012,468(468):2035-2052.
[11] Llabres I X F X,Alberto A,Avelino C,et al.MOFs as catalysts:activity,reusability and shape-selectivity of a Pd-containing MOF[J].Journal of Catalysis,2007,250(2):294-298.
[12] Jiang Z R,Wang H,Hu Y,et al.Polar group and defect engineering in a metal-organic framework:synergistic promotion of carbon dioxide sorption and conversion[J].ChemSusChem,2015,8(5):878-885.
[13] Huang Y,Gao S,Liu T,et al.Palladium nanoparticles supported on mixed-linker metal-organic frameworks as highly active catalysts for heck reactions[J].Chempluschem,2012,77(2):106-112.
[14] Kovtunov K V,Zhivonitko V V,Corma A,et al.Parahydrogen-induced polarization in heterogeneous hydrogenations catalyzed by an immobilized Au(Ⅲ) complex[J].J Phys Chem Lett,2010,1(11):1705-1708.
[15] Ruano D,Manuel D G,Alfayate A,et al.Nanocrystalline M-MOF-74 as heterogeneous catalysts in the oxidation of cyclohexene:correlation of the activity and redox potential[J].Chemcatchem,2015,7(4):674-681.
[16] Cancino P,Paredes-García V,Aguirre P,et al.A reusable CuⅡ based metal-organic framework as a catalyst for the oxidation of olefins[J].Catalysis Science Technology,2014,4(8):2599-2607.
[17] Brown K,Zolezzi S,Aguirre P,et al.[Cu(H2btec)(bipy)]∞:a novel metal organic framework (MOF) as heterogeneous catalyst for the oxidation of olefins[J].Dalton Transactions,2009,8(8):1422-1427.
[18] Ghiaci M,Aghabarari B,Rego A M B D,et al.Efficient allylic oxidation of cyclohexene catalyzed by trimetallic hybrid nano-mixed oxide (Ru/Co/Ce)[J].Applied Catalysis A General,2011,393(1):225-230.
[19] Kumar R,Kumar R,Mahiya K,et al.Oxidation of substituted benzyl amines using a phenoxo-bridged dimeric nickel(Ⅱ) complex:synthesis,crystal structure and catalytic activity[J].Transition Metal Chemistry,2015,40(2):189-195.
[20] Dhakshinamoorthy A,Alvaro M,Garcia H.Metal organic frameworks as efficient heterogeneous catalysts for the oxidation of benzylic compounds with t -butylhydroperoxide[J].Journal of Catalysis,2009,267(1):1-4.
[21] Xamena L I F X,Casanova O,Tailleur G,et al.Metal organic frameworks (MOFs) as catalysts:a combination of Cu2+ and Co2+ MOFs as an efficient catalyst for tetralin oxidation[J].Journal of Catalysis,2008,255(2):220-227.
[22] Seo J S,Whang D,Lee H,et al.A homochiral metal-organic porous material for enantioselective separation and catalysis[J].Nature,2000,404(6781):982-986.
[23] Canivet J,Aguado S,Daniel C,et al.Engineering the environment of a catalytic metal-organic framework by postsynthetic hydrophobization[J].Chemcatchem,2011,3(4):675-678.
[24] Lee Y R,Chung Y M,Ahn W S.A new site-isolated acid-base bifunctional metal-organic framework for one-pot tandem reaction[J].RSC Advances,2014,4(44):23064-23067.
[25] Akiyama G,Matsuda R,Sato H,et al.Cellulose hydrolysis by a new porous coordination polymer decorated with sulfonic acid functional groups[J].Advanced Materials,2011,23(29):3294-3297.
[26] Xamena F X L I,Cirujano F G,Corma A.An unexpected bifunctional acid base catalysis in IRMOF-3 for Knoevenagel condensation reactions[J].Microporous Mesoporous Materials,2012,157(27):112-117.
[27] Wang H,Gu X K,Zheng X,et al.Disentangling the size-dependent geometric and electronic effects of palladium nanocatalysts beyond selectivity[J].Science Advances,2019,5(1).
[28] Mccool G,Li J,Castro E D,et al.Making economical MOF-based precious-metal free oxygen reduction reaction catalysts[J].Stem Cell Reports,2015,4(2):199-208.
[29] 李莹,林雨,孙晓英,等.MOF复合材料的制备及应用研究进展[J].化工新型材料,2018,46(3):6-9.
[30] 许兰兰,王松,刘玉霞,等.微波法合成金属-有机骨架材料研究应用进展[J].化工新型材料,2019,47(4):1-5.
[31] Pan Y,Ma D,Liu H,et al.Uncoordinated carbonyl groups of MOFs as anchoring sites for the preparation of highly active Pd nano-catalysts[J].Journal of Materials Chemistry,2012,22(21):10834-10839.
[32] Zhao M,Deng K,He L,et al.Core-shell palladium nanoparticle@metal-organic frameworks as multifunctional catalysts for cascade reactions[J].Journal of the American Chemical Society,2014,136(5):1738-1741.
[33] Aijaz A,Karkamkar A,Choi Y J,et al.Immobilizing highly catalytically active Pt nanoparticles inside the pores of metal-organic framework:a double solvents approach[J].Journal of the American Chemical Society,2012,134(34):13926-13929.
[34] Guo Z,Xiao C,Maligal-Ganesh R V,et al.Pt nanoclusters confined within metal-organic framework cavities for chemoselective cinnamaldehyde hydrogenation[J].ACS Catalysis,2014,4(5):1340-1348.
[35] Luan Y,Qi Y,Yu J,et al.ChemInform abstract:the development of a novel HAuCl4@MOF catalyst and its catalytic application in the formation of dihydrochalcones[J].RSC Advances,2014,4(64):34199-34203.
[36] Luan Y,Qi Y,Gao H,et al.Synthesis of an amino-functionalized metal-organic framework at a nanoscale level for gold nanoparticle deposition and catalysis[J].J Mater Chem A,2014,2(48):20588-20596.
[37] Vu T V,Kosslick H,Schulz A,et al.Selective hydroformylation of olefins over the rhodium supported large porous metal-organic framework MIL-101[J].Applied Catalysis A General,2013,468:410-417.
[38] Genna D T,Pfund L Y,Samblanet D C,et al.Rhodium hydrogenation catalysts supported in metal organic frameworks:influence of the framework on catalytic activity and selectivity[J].ACS Catalysis,2016:3569-3574.
[2] Hill R J,Long D L,Champness N R,et al.New approaches to the analysis of high connectivity materials:design frameworks based upon 44- and 63-subnet tectons[J].Accounts of Chemical Research,2005,38(4):335-338.
[3] Chen B,Zhao X,Putkham A,et al.Surface interactions and quantum kinetic molecular sieving for H2 and D2 adsorption on a mixed metal-organic framework material[J].Journal of the American Chemical Society,2008,130(20):6411-6423.
[4] Chen B,Wang L,Zapata F,et al.A luminescent microporous metal-organic framework for the recognition and sensing of anions[J].Journal of the American Chemical Society,2008,130(21):6718-6719.
[5] Wu M X,Yang Y W.Metal-organicframework (MOF)-based drug/cargo delivery and cancer therapy[J].Advanced Materials,2017,29(23):1606134.
[6] Dybtsev D N,Nuzhdin A L,Chun H,et al.A homochiral metal-organic material with permanent porosity,enantioselective sorption properties,and catalytic activity[J].Angew Chem Int Ed Engl,2010,45(6):916-920.
[7] Furukawa H,Ko N,Yong B G,et al.Ultrahigh porosity in metal-organic frameworks[J].Science,2010,329(5990):424-428.
[8] 秦茜,孙玉绣,王乃鑫,等.表面修饰在MOF薄膜制备中的应用[J].化工进展,2017,36(4):1306-1315.
[9] Philipp M,Fabian S,Sven Z,et al.Post-synthetic shaping of porosity and crystal structure of,ln-bipy-MOFs by thermal treatment[J].Molecules,2015,20(7):12125-12153.
[10] Song F,Zhang T,Wang C,et al.Chiral porous metal-organic frameworks with dual active sites for sequential asymmetric catalysis[J].Proceedings of the Royal Society A Mathematical Physical Engineering Sciences,2012,468(468):2035-2052.
[11] Llabres I X F X,Alberto A,Avelino C,et al.MOFs as catalysts:activity,reusability and shape-selectivity of a Pd-containing MOF[J].Journal of Catalysis,2007,250(2):294-298.
[12] Jiang Z R,Wang H,Hu Y,et al.Polar group and defect engineering in a metal-organic framework:synergistic promotion of carbon dioxide sorption and conversion[J].ChemSusChem,2015,8(5):878-885.
[13] Huang Y,Gao S,Liu T,et al.Palladium nanoparticles supported on mixed-linker metal-organic frameworks as highly active catalysts for heck reactions[J].Chempluschem,2012,77(2):106-112.
[14] Kovtunov K V,Zhivonitko V V,Corma A,et al.Parahydrogen-induced polarization in heterogeneous hydrogenations catalyzed by an immobilized Au(Ⅲ) complex[J].J Phys Chem Lett,2010,1(11):1705-1708.
[15] Ruano D,Manuel D G,Alfayate A,et al.Nanocrystalline M-MOF-74 as heterogeneous catalysts in the oxidation of cyclohexene:correlation of the activity and redox potential[J].Chemcatchem,2015,7(4):674-681.
[16] Cancino P,Paredes-García V,Aguirre P,et al.A reusable CuⅡ based metal-organic framework as a catalyst for the oxidation of olefins[J].Catalysis Science Technology,2014,4(8):2599-2607.
[17] Brown K,Zolezzi S,Aguirre P,et al.[Cu(H2btec)(bipy)]∞:a novel metal organic framework (MOF) as heterogeneous catalyst for the oxidation of olefins[J].Dalton Transactions,2009,8(8):1422-1427.
[18] Ghiaci M,Aghabarari B,Rego A M B D,et al.Efficient allylic oxidation of cyclohexene catalyzed by trimetallic hybrid nano-mixed oxide (Ru/Co/Ce)[J].Applied Catalysis A General,2011,393(1):225-230.
[19] Kumar R,Kumar R,Mahiya K,et al.Oxidation of substituted benzyl amines using a phenoxo-bridged dimeric nickel(Ⅱ) complex:synthesis,crystal structure and catalytic activity[J].Transition Metal Chemistry,2015,40(2):189-195.
[20] Dhakshinamoorthy A,Alvaro M,Garcia H.Metal organic frameworks as efficient heterogeneous catalysts for the oxidation of benzylic compounds with t -butylhydroperoxide[J].Journal of Catalysis,2009,267(1):1-4.
[21] Xamena L I F X,Casanova O,Tailleur G,et al.Metal organic frameworks (MOFs) as catalysts:a combination of Cu2+ and Co2+ MOFs as an efficient catalyst for tetralin oxidation[J].Journal of Catalysis,2008,255(2):220-227.
[22] Seo J S,Whang D,Lee H,et al.A homochiral metal-organic porous material for enantioselective separation and catalysis[J].Nature,2000,404(6781):982-986.
[23] Canivet J,Aguado S,Daniel C,et al.Engineering the environment of a catalytic metal-organic framework by postsynthetic hydrophobization[J].Chemcatchem,2011,3(4):675-678.
[24] Lee Y R,Chung Y M,Ahn W S.A new site-isolated acid-base bifunctional metal-organic framework for one-pot tandem reaction[J].RSC Advances,2014,4(44):23064-23067.
[25] Akiyama G,Matsuda R,Sato H,et al.Cellulose hydrolysis by a new porous coordination polymer decorated with sulfonic acid functional groups[J].Advanced Materials,2011,23(29):3294-3297.
[26] Xamena F X L I,Cirujano F G,Corma A.An unexpected bifunctional acid base catalysis in IRMOF-3 for Knoevenagel condensation reactions[J].Microporous Mesoporous Materials,2012,157(27):112-117.
[27] Wang H,Gu X K,Zheng X,et al.Disentangling the size-dependent geometric and electronic effects of palladium nanocatalysts beyond selectivity[J].Science Advances,2019,5(1).
[28] Mccool G,Li J,Castro E D,et al.Making economical MOF-based precious-metal free oxygen reduction reaction catalysts[J].Stem Cell Reports,2015,4(2):199-208.
[29] 李莹,林雨,孙晓英,等.MOF复合材料的制备及应用研究进展[J].化工新型材料,2018,46(3):6-9.
[30] 许兰兰,王松,刘玉霞,等.微波法合成金属-有机骨架材料研究应用进展[J].化工新型材料,2019,47(4):1-5.
[31] Pan Y,Ma D,Liu H,et al.Uncoordinated carbonyl groups of MOFs as anchoring sites for the preparation of highly active Pd nano-catalysts[J].Journal of Materials Chemistry,2012,22(21):10834-10839.
[32] Zhao M,Deng K,He L,et al.Core-shell palladium nanoparticle@metal-organic frameworks as multifunctional catalysts for cascade reactions[J].Journal of the American Chemical Society,2014,136(5):1738-1741.
[33] Aijaz A,Karkamkar A,Choi Y J,et al.Immobilizing highly catalytically active Pt nanoparticles inside the pores of metal-organic framework:a double solvents approach[J].Journal of the American Chemical Society,2012,134(34):13926-13929.
[34] Guo Z,Xiao C,Maligal-Ganesh R V,et al.Pt nanoclusters confined within metal-organic framework cavities for chemoselective cinnamaldehyde hydrogenation[J].ACS Catalysis,2014,4(5):1340-1348.
[35] Luan Y,Qi Y,Yu J,et al.ChemInform abstract:the development of a novel HAuCl4@MOF catalyst and its catalytic application in the formation of dihydrochalcones[J].RSC Advances,2014,4(64):34199-34203.
[36] Luan Y,Qi Y,Gao H,et al.Synthesis of an amino-functionalized metal-organic framework at a nanoscale level for gold nanoparticle deposition and catalysis[J].J Mater Chem A,2014,2(48):20588-20596.
[37] Vu T V,Kosslick H,Schulz A,et al.Selective hydroformylation of olefins over the rhodium supported large porous metal-organic framework MIL-101[J].Applied Catalysis A General,2013,468:410-417.
[38] Genna D T,Pfund L Y,Samblanet D C,et al.Rhodium hydrogenation catalysts supported in metal organic frameworks:influence of the framework on catalytic activity and selectivity[J].ACS Catalysis,2016:3569-3574.
本文链接: http://tisischemical.immuno-online.com/view-775494.html
发布于 : 2021-03-25
阅读(0)
最新动态
2021-03-25
2021-03-25
2021-03-24
2021-03-25
2021-03-25
2021-03-24
2021-03-25
公司介绍
品牌分类
联络我们
