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Journal Abstract Search

145 related items for PubMed ID: 30920763

  • 21. Layer-by-layer assembly of Cu3(BTC)2 on chitosan non-woven fabrics: a promising haemostatic decontaminant composite material against sulfur mustard.
    Zhang L, Sun J, Zhou Y, Zhong Y, Ying Y, Li Y, Liu Y, Zuhra Z, Huang C.
    J Mater Chem B; 2017 Aug 14; 5(30):6138-6146. PubMed ID: 32264367
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  • 22. Catalytic Metal Nanoparticles Embedded in Conductive Metal-Organic Frameworks for Chemiresistors: Highly Active and Conductive Porous Materials.
    Koo WT, Kim SJ, Jang JS, Kim DH, Kim ID.
    Adv Sci (Weinh); 2019 Nov 06; 6(21):1900250. PubMed ID: 31728270
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  • 23. Simple Transformation of Hierarchical Hollow Structures by Reduction of Metal-Organic Frameworks and Their Catalytic Activity in the Oxidation of Benzyl Alcohol.
    Ju S, Yusuf M, Jang S, Kang H, Kim S, Park KH.
    Chemistry; 2019 Jun 12; 25(33):7852-7859. PubMed ID: 30942495
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  • 24. Porous metal-organic framework Cu3(BTC)2 as catalyst used in air-cathode for high performance of microbial fuel cell.
    Tian P, Liu D, Li K, Yang T, Wang J, Liu Y, Zhang S.
    Bioresour Technol; 2017 Nov 12; 244(Pt 1):206-212. PubMed ID: 28779673
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  • 25. Electron Density and Dielectric Properties of Highly Porous MOFs: Binding and Mobility of Guest Molecules in Cu3(BTC)2 and Zn3(BTC)2.
    Scatena R, Guntern YT, Macchi P.
    J Am Chem Soc; 2019 Jun 12; 141(23):9382-9390. PubMed ID: 31129957
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  • 27. Tuning the Size and Shape of NanoMOFs via Templated Electrodeposition and Subsequent Electrochemical Oxidation.
    Caddeo F, Vogt R, Weil D, Sigle W, Toimil-Molares ME, Maijenburg AW.
    ACS Appl Mater Interfaces; 2019 Jul 17; 11(28):25378-25387. PubMed ID: 31265221
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  • 29. Cu@Cu3 P Core-Shell Nanowires Attached to Nickel Foam as High-Performance Electrocatalysts for the Hydrogen Evolution Reaction.
    Zheng H, Huang X, Gao H, Lu G, Dong W, Wang G.
    Chemistry; 2019 Jan 18; 25(4):1083-1089. PubMed ID: 30447027
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  • 30. Scrutinizing the Pore Chemistry and the Importance of Cu(I) Defects in TCNQ-Loaded Cu3(BTC)2 by a Multitechnique Spectroscopic Approach.
    Schneider C, Mendt M, Pöppl A, Crocellà V, Fischer RA.
    ACS Appl Mater Interfaces; 2020 Jan 08; 12(1):1024-1035. PubMed ID: 31809022
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  • 34. Dehydrogenative coupling of silanes with alcohols catalyzed by Cu3(BTC)2.
    Dhakshinamoorthy A, Concepcion P, Garcia H.
    Chem Commun (Camb); 2016 Feb 14; 52(13):2725-8. PubMed ID: 26759085
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  • 35. Dynamic single-site polysulfide immobilization in long-range disorder Cu-MOFs.
    Sun J, Lu X, Wu KH, Hou J, Fang R, Hart JN, Zhu S, Chen V, Amal R, Wang DW.
    Chem Commun (Camb); 2020 Aug 27; 56(69):10074-10077. PubMed ID: 32734980
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  • 37. Direct observation of dimethyl sulfide trapped by MOF proving efficient removal of sulfur impurities.
    Morita M, Yonezu A, Kusaka S, Hori A, Ma Y, Matsuda R.
    RSC Adv; 2020 Jan 24; 10(8):4710-4714. PubMed ID: 35495276
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  • 38. Immobilization of Metal-Organic Framework Nanocrystals for Advanced Design of Supported Nanocatalysts.
    Li P, Zeng HC.
    ACS Appl Mater Interfaces; 2016 Nov 02; 8(43):29551-29564. PubMed ID: 27740768
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  • 39. In Situ Generation and Stabilization of Accessible Cu/Cu2 O Heterojunctions inside Organic Frameworks for Highly Efficient Catalysis.
    Chen K, Ling JL, Wu CD.
    Angew Chem Int Ed Engl; 2020 Jan 27; 59(5):1925-1931. PubMed ID: 31755200
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  • 40. Superparamagnetic MOF@GO Ni and Co based hybrid nanocomposites as efficient water pollutant adsorbents.
    Ventura K, Arrieta RA, Marcos-Hernández M, Jabbari V, Powell CD, Turley R, Lounsbury AW, Zimmerman JB, Gardea-Torresdey J, Wong MS, Villagrán D.
    Sci Total Environ; 2020 Oct 10; 738():139213. PubMed ID: 32534278
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