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Journal Abstract Search

253 related items for PubMed ID: 30045623

  • 61. UiO-66-NH2 Metal-Organic Framework (MOF) Nucleation on TiO2, ZnO, and Al2O3 Atomic Layer Deposition-Treated Polymer Fibers: Role of Metal Oxide on MOF Growth and Catalytic Hydrolysis of Chemical Warfare Agent Simulants.
    Lee DT, Zhao J, Oldham CJ, Peterson GW, Parsons GN.
    ACS Appl Mater Interfaces; 2017 Dec 27; 9(51):44847-44855. PubMed ID: 29165990
    [Abstract] [Full Text] [Related]

  • 62. Variation in Catalytic Efficacies of a 2D pH-Stable MOF by Altering Activation Methods.
    Behera J, Pal A, Sahoo R, Das MC.
    Chemistry; 2024 Jun 17; 30(34):e202400375. PubMed ID: 38622985
    [Abstract] [Full Text] [Related]

  • 63. A metal-organic framework containing unusual eight-connected Zr-oxo secondary building units and orthogonal carboxylic acids for ultra-sensitive metal detection.
    Carboni M, Lin Z, Abney CW, Zhang T, Lin W.
    Chemistry; 2014 Nov 10; 20(46):14965-70. PubMed ID: 25294005
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  • 64. Lewis Acids as Activators in CBS-Catalysed Diels-Alder Reactions: Distortion Induced Lewis Acidity Enhancement of SnCl4.
    Nödling AR, Möckel R, Tonner R, Hilt G.
    Chemistry; 2016 Sep 05; 22(37):13171-80. PubMed ID: 27492791
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  • 65. Metal-organic framework based upon the synergy of a Brønsted acid framework and Lewis acid centers as a highly efficient heterogeneous catalyst for fixed-bed reactions.
    Li B, Leng K, Zhang Y, Dynes JJ, Wang J, Hu Y, Ma D, Shi Z, Zhu L, Zhang D, Sun Y, Chrzanowski M, Ma S.
    J Am Chem Soc; 2015 Apr 01; 137(12):4243-8. PubMed ID: 25773275
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  • 66. Environmentally Friendly, Co-catalyst-Free Chemical Fixation of CO2 at Mild Conditions Using Dual-Walled Nitrogen-Rich Three-Dimensional Porous Metal-Organic Frameworks.
    Ugale B, Kumar S, Dhilip Kumar TJ, Nagaraja CM.
    Inorg Chem; 2019 Mar 18; 58(6):3925-3936. PubMed ID: 30807120
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  • 67. Anchored Aluminum Catalyzed Meerwein-Ponndorf-Verley Reduction at the Metal Nodes of Robust MOFs.
    Larson PJ, Cheney JL, French AD, Klein DM, Wylie BJ, Cozzolino AF.
    Inorg Chem; 2018 Jun 18; 57(12):6825-6832. PubMed ID: 29878771
    [Abstract] [Full Text] [Related]

  • 68. Bimetallic Metal-Organic Frameworks: Probing the Lewis Acid Site for CO2 Conversion.
    Zou R, Li PZ, Zeng YF, Liu J, Zhao R, Duan H, Luo Z, Wang JG, Zou R, Zhao Y.
    Small; 2016 May 18; 12(17):2334-43. PubMed ID: 26900671
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  • 69. New Metal-Organic Frameworks for Chemical Fixation of CO2.
    Nguyen PTK, Nguyen HTD, Nguyen HN, Trickett CA, Ton QT, Gutiérrez-Puebla E, Monge MA, Cordova KE, Gándara F.
    ACS Appl Mater Interfaces; 2018 Jan 10; 10(1):733-744. PubMed ID: 29251904
    [Abstract] [Full Text] [Related]

  • 70. Chiral Bimetallic Catalysts Derived from Chiral Metal Phosphates: Enantioselective Three-Component Asymmetric Aza-Diels-Alder Reactions of Cyclic Ketones.
    Deng Y, Karunaratne CV, Csatary E, Tierney DL, Wheeler K, Wang H.
    J Org Chem; 2015 Aug 21; 80(16):7984-93. PubMed ID: 26185962
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  • 71. Directing the breathing behavior of pillared-layered metal-organic frameworks via a systematic library of functionalized linkers bearing flexible substituents.
    Henke S, Schneemann A, Wütscher A, Fischer RA.
    J Am Chem Soc; 2012 Jun 06; 134(22):9464-74. PubMed ID: 22575013
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  • 72. Adsorption of Carbon Dioxide on Unsaturated Metal Sites in M2 (dobpdc) Frameworks with Exceptional Structural Stability and Relation between Lewis Acidity and Adsorption Enthalpy.
    Yoo GY, Lee WR, Jo H, Park J, Song JH, Lim KS, Moon D, Jung H, Lim J, Han SS, Jung Y, Hong CS.
    Chemistry; 2016 May 23; 22(22):7444-51. PubMed ID: 27105924
    [Abstract] [Full Text] [Related]

  • 73. Tuning Catalytic Sites on Zr6O8 Metal-Organic Framework Nodes via Ligand and Defect Chemistry Probed with tert-Butyl Alcohol Dehydration to Isobutylene.
    Yang D, Gaggioli CA, Ray D, Babucci M, Gagliardi L, Gates BC.
    J Am Chem Soc; 2020 Apr 29; 142(17):8044-8056. PubMed ID: 32249577
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  • 74. Density Functional Investigation of the Conversion of Furfural to Furfuryl Alcohol by Reaction with i-Propanol over UiO-66 Metal-Organic Framework.
    Sittiwong J, Boonmark S, Nunthakitgoson W, Maihom T, Wattanakit C, Limtrakul J.
    Inorg Chem; 2021 Apr 05; 60(7):4860-4868. PubMed ID: 33764784
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  • 75. Metal-Organic Frameworks for the Adsorptive Removal of Gaseous Aliphatic Ketones.
    Vikrant K, Kim KH, Kumar S, Boukhvalov DW.
    ACS Appl Mater Interfaces; 2020 Mar 04; 12(9):10317-10331. PubMed ID: 32041396
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  • 76. In situ X-ray absorption spectroscopy studies of kinetic interaction between platinum(II) ions and UiO-66 series metal-organic frameworks.
    Xiao C, Goh TW, Brashler K, Pei Y, Guo Z, Huang W.
    J Phys Chem B; 2014 Dec 11; 118(49):14168-76. PubMed ID: 25144330
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  • 77. Probing the correlations between the defects in metal-organic frameworks and their catalytic activity by an epoxide ring-opening reaction.
    Liu Y, Klet RC, Hupp JT, Farha O.
    Chem Commun (Camb); 2016 Jun 14; 52(50):7806-9. PubMed ID: 27229848
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  • 78. One-pot synthesis of binary metal organic frameworks (HKUST-1 and UiO-66) for enhanced adsorptive removal of water contaminants.
    Azhar MR, Abid HR, Sun H, Periasamy V, Tadé MO, Wang S.
    J Colloid Interface Sci; 2017 Mar 15; 490():685-694. PubMed ID: 27940035
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  • 79. Reversible Diels-Alder and Michael Addition Reactions Enable the Facile Postsynthetic Modification of Metal-Organic Frameworks.
    Nayab S, Trouillet V, Gliemann H, Weidler PG, Azeem I, Tariq SR, Goldmann AS, Barner-Kowollik C, Yameen B.
    Inorg Chem; 2021 Apr 05; 60(7):4397-4409. PubMed ID: 33729794
    [Abstract] [Full Text] [Related]

  • 80. Fabrication of Metal-Organic Frameworks inside Silica Nanopores with Significantly Enhanced Hydrostability and Catalytic Activity.
    Kou J, Sun LB.
    ACS Appl Mater Interfaces; 2018 Apr 11; 10(14):12051-12059. PubMed ID: 29537251
    [Abstract] [Full Text] [Related]

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