[1] FAN W,GAO W,ZHANG C,et al.Hybridization of graphene sheets and carbon-coated Fe3O4 nanoparticles as a synergistic adsorbent of organic dyes[J].Journal of Materials Chemistry,2012,22:25108-25115.
[2] LIANG M,CHEN J. Arylamine organic dyes for dye-sensitized solar cells[J].Chemical Society Reviews,2013,42:3453-3488.
[3] GONG R,YE J,DAI W,et al. Adsorptive removal of methyl orange and methylene blue from aqueous solution with finger-citron-residue-based activated carbon[J]. Industrial & Engineering Chemistry Research,2013,52:14297-14303.
[4] UDDIN M T,ISLAM M A,MAHMUD S,et al.Adsorptive removal of methylene blue by tea waste[J].Journal of Hazardous Materials,2009,164:53-60.
[5] HAQUE E,JUN J W,JHUNG S H.Adsorptive removal of methyl orange and methylene blue from aqueous solution with a metal-organic framework material,iron terephthalate(MOF-235)[J].J Hazard Mater,2011,185:507-511.
[6] MAHANTA D,MADRAS G,RADHAKRISHNAN S. Adsorption of sulfonated dyes by polyaniline emeraldine salt and its kinetics[J].J. Phys. Chem. B,2008,112:10153-10157.
[7] 李小娟,何长发,黄斌,等.金属有机骨架材料吸附去除环境污染物的进展[J].化工进展,2016,35(2):586-594. LI X J,HE C F,HUANG B,et al.Progress in the applications of metal-organic frameworks in adsorption removal of hazardous materials[J].Chemical Industry and Engineering Progress,2016,35(2):586-594.
[8] 朱晨明,王保登,张中正,等.金属-有机骨架复合材料的制备及其二氧化碳吸附性能[J].化工进展,2016,35(9):2875-2884. ZHU C M,WANG B D,ZHANG Z Z,et al.Preparation and CO2 adsorption performance of metal-organic framework composites[J]. Chemical Industry and Engineering Progress,2016,35(9):2875-2884.
[9] 牛照栋,关清卿,陈秋玲,等.膦酸类金属-有机骨架材料对CO2的吸附性能研究进展[J].化工进展,2017,36(5):1782-1790. NIU Z D,GUAN Q Q,CHEN Q L,et al.Progress of application for CO2 adsorption with phosphonate metal-organic frameworks[J]. Chemical Industry and Engineering Progress,2017,36(5):1782-1790.
[10] GALLO M,GLOSSMAN-MITNIK D.Fuel gas storage and separations by metal-organic frameworks:simulated adsorption isotherms for H2 and CH4 and their equimolar mixture[J].J. Phys. Chem. C,2009,113:6634-6642.
[11] 刘艳凤,张天永,吴武斌,等.水处理提高MOF-199催化苯羟基化反应性能[J].化工进展,2016,35(4):1113-1120. LIU Y Y,ZHANG T Y,WU W B,et al. Enhanced catalytic properties of MOF-199 with water treatment in the direct hydroxylation of benzene[J].Chemical Industry and Engineering Progress,2016,35(4):1113-1120.
[12] 刘丽丽,台夕市,刘美芳,等.Au/MOF-5催化剂在三组分偶联反应中的催化性能[J].化工学报,2015,66(5):1738-1747. LIU L L,TAI X S,LIU M F,et al. Supported Au/MOF-5:a highly active catalyst for three-component coupling reactions[J].CIESC Journal,2015,66(5):1738-1747.
[13] LI Z,PETERS A W,BERNALES V,et al. Metal-organic framework supported cobalt catalysts for the oxidative dehydrogenation of propane at low temperature[J].ACS Cent. Sci.,2017,3:31-38.
[14] HERMANNSDÖRFER J,FRIEDRICH M,MIYAJIMA N,et al.Ni/Pd@MIL-101:synergistic catalysis with cavity-conform Ni/Pd nanoparticles[J]. Angew. Chem. Int. Ed.,2012,51:11473-11477.
[15] JUAN-ALCAÑIZENRIQUE J,RAMOS-FERNANDEZ E V,LAFONT U,et al.Building MOF bottles around phosphotungstic acid ships:one-pot synthesis of bi-functional polyoxometalate-MIL-101 catalysts[J].Journal of Catalysis,2010,269:229-241.
[16] CHEN B L,EDDAOUDI M,HYDE S T.Interwoven metal-organic framework on a periodic minimal surface with extra-large pores[J]. Science,2001,291(5506):1021-1023.
[17] KLIMAKOW M,KLOBES P,THU?NEMANN A F,et al.Mechanochemical synthesis of metal-organic frameworks:a fast and facile approach toward quantitative yields and high specific surface areas[J].Chemistry of Materials,2010,22:5216-5221.
[18] 刘庆,杨吉民,靳黎娜,等.添加剂辅助的溶剂热合成多孔配位聚合物MOF-14及其形貌和尺寸调控[J].科学通报,2016,61(16):1774-1780. LIU Q,YANG J M,JIN L N,et al.Additive-assisted solvothermal synthesis and properties of porous coordination polymer MOF-14 crystals with controlled morphology and size[J].Chinese Science Bulletin,2016,61(16):1774-1780.
[19] LIU Q,YANG J M,JIN L N,et al.Controlled synthesis of porous coordination-polymer microcrystals with definite morphologies and sizes under mild conditions[J].Chemistry,2014,20:14783-14789.
[20] YANG Q Y,ZHONG C L.Molecular simulation of carbon dioxide/methane/hydrogen mixture adsorption in metal-organic frameworks[J].J. Phys. Chem. B,2006,110:17776-17783.
[21] KARRA J R,GRABICKA B E,HUANG Y G,et al.Adsorption study of CO2,CH4,N2,and H2O on an interwoven copper carboxylate metal-organic framework(MOF-14)[J].J. Colloid Interface Sci.,2013,392:331-336.
[22] ZHAO X Q,XIN C L,YIN Y C,et al.Metal organic framework as an adsorbent for desulphurization[J]. Adsorption Science & Technology,2012,30:483-490.
[23] YAO Q,SUN J,LI K,et al.A series of isostructural mesoporous metal-organic frameworks obtained by ion-exchange induced single-crystal to single-crystal transformation[J]. Dalton Trans.,2012,41:3953-3955.
[24] FAN G,MA Z,HUANG Z.Size effect on thermodynamic parameters for the peanut-like CaMoO4 micro/nano reaction systems[J]. Journal of Thermal Analysis and Calorimetry,2013,116:485-489.
[25] FAN G,HUANG Z,JIANG J,et al.Standard molar enthalpy of formation of the ZnO nanosheets[J].Journal of Thermal Analysis and Calorimetry,2011,110:1471-1474.
[26] YOON M Y,SRIRAMBALAJI R,KIM K.Homochiral metal-organic frameworks for asymmetric heterogeneous catalysis[J].Chem. Rev.,2012,112:1196-1231.
[27] AHMAD R,KUMAR R.Adsorptive removal of Congo Red dye from aqueous solution using bael shell carbon[J].Applied Surface Science,2010,257:1628-1633.
[28] ZHU T,CHEN J S,LOU X W.Highly efficient removal of organic dyes from waste water using hierarchical NiO spheres with high surface area[J].The Journal of Physical Chemistry C,2012,116:6873-6878.
[29] SHEN C,SHEN Y,WEN Y,et al.Fast and highly efficient removal of dyes under alkaline conditions using magnetic chitosan-Fe(Ⅲ) hydrogel[J]. Water Res.,2011,45:5200-5210.
[30] CHANG J S,CHOU C,LIN Y C.Kinetic characteristics of bacterial azo-dye decolorization by pseudomonas luteola[J].Wat. Res.,2001,35:2841-2850.
[31] MA S,NIU Y,ZHAO X,et al.A metal-organic polyhedron based on dibenzothiophene ligand:gas adsorption and reductive properties[J].Inorganic Chemistry Communications,2016,70:10-13.
[32] BUXTON G V,GREENSTOCK C L,HELMAN W P,et al.Critical review of rate constants for reactions of hydrated electrons,hydrogen atoms and hydroxyl radicals(⋅OH/⋅O−) in aqueous solution[J].Journal of Physical and Chemical Reference Data,1988,17:513-886.
[33] HWANG S,HULING S G,KO S.Fenton-like degradation of MTBE:effects of iron counter anion and radical scavengers[J]. Chemosphere,2010,78:563-568.
[34] PEREIRA M C,OLIVEIRA L C A,MURAD E.Iron oxide catalysts:Fenton and fentonlike reactions-A review[J].Clay Minerals,2012,47:285-302.
[35] SCHWARZ H A,DODSON R W.Equilibrium between hydroxyl radicals and thallium(Ⅱ) and the oxidation potential of hydroxyl(AQ)[J]. The Journal of Physical Chemistry,1984,88:3643-3647.
[36] XING X,DENG D,LI Y,et al.Macro-/nanoporous Al-doped ZnO via self-sustained decomposition of metal-organic complexes for application in degradation of Congo Red[J].Ceramics International,2016,42:18914-18924.
[37] ERDEMO?LU S,AKSU S K,SAYLKAN F,et al.Photocatalytic degradation of Congo Red by hydrothermally synthesized nanocrystalline TiO2 and identification of degradation products by LC-MS[J].Journal of Hazardous Materials,2008,155:469-476.
[38] 任南琪,郭婉茜,杨珊珊,等.染料废水处理技术研究进展[J].化工学报,2013,64(11):84-94. REN N Q,GUO W Q,YANG S S,et al. A review on treatment methods of dye wastewater[J].CIESC Journal,2013,64(11):84-94.
[39] LI D F,GUO Y H,HU C W,et al.Preparation,characterization and photocatalytic property of the PW110397-/TiO2 composite film towards AZO-dye degradation[J].Journal of Molecular Catalysis A:Chemical,2004,207:183-193. |