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Journal Abstract Search

221 related items for PubMed ID: 37418318

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  • 3. Metal-Organic Frameworks Stabilize Solution-Inaccessible Cobalt Catalysts for Highly Efficient Broad-Scope Organic Transformations.
    Zhang T, Manna K, Lin W.
    J Am Chem Soc; 2016 Mar 09; 138(9):3241-9. PubMed ID: 26864496
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  • 5. Metal-organic frameworks as selectivity regulators for hydrogenation reactions.
    Zhao M, Yuan K, Wang Y, Li G, Guo J, Gu L, Hu W, Zhao H, Tang Z.
    Nature; 2016 Nov 03; 539(7627):76-80. PubMed ID: 27706142
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  • 6. Phenanthroline-based metal-organic frameworks for Fe-catalyzed Csp3-H amination.
    Thacker NC, Ji P, Lin Z, Urban A, Lin W.
    Faraday Discuss; 2017 Sep 08; 201():303-315. PubMed ID: 28627532
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  • 7. Selective Catalytic Chemistry at Rhodium(II) Nodes in Bimetallic Metal-Organic Frameworks.
    Shakya DM, Ejegbavwo OA, Rajeshkumar T, Senanayake SD, Brandt AJ, Farzandh S, Acharya N, Ebrahim AM, Frenkel AI, Rui N, Tate GL, Monnier JR, Vogiatzis KD, Shustova NB, Chen DA.
    Angew Chem Int Ed Engl; 2019 Nov 11; 58(46):16533-16537. PubMed ID: 31529667
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  • 8. Bi Metal-Organic Framework (Ce/Ni-BTC) as Heterogeneous Catalyst for the Green Synthesis of Substituted Chromeno[4, 3-b]quinolone under Solvent Free Condition.
    Sayahi MH, Yadollahi M, Hamad SM, Ganjali MR, Aghazadeh M, Mahdavi M, Bahadorikhalili S.
    Curr Org Synth; 2021 Nov 11; 18(5):475-482. PubMed ID: 33480346
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  • 9. Bipyridine- and phenanthroline-based metal-organic frameworks for highly efficient and tandem catalytic organic transformations via directed C-H activation.
    Manna K, Zhang T, Greene FX, Lin W.
    J Am Chem Soc; 2015 Feb 25; 137(7):2665-73. PubMed ID: 25640998
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  • 15. Metal-Organic Framework-Supported Mono Bipyridyl-Iron Hydroxyl Catalyst for Selective Benzene Hydroxylation into Phenol.
    Gupta P, Akhtar N, Begum W, Rana B, Kalita R, Chauhan M, Thadhani C, Manna K.
    Inorg Chem; 2024 Jun 24; 63(25):11907-11916. PubMed ID: 38850244
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  • 17. Three-dimensional Co/Ni bimetallic organic frameworks for high-efficient catalytic ozonation of atrazine: Mechanism, effect parameters, and degradation pathways analysis.
    Ye G, Luo P, Zhao Y, Qiu G, Hu Y, Preis S, Wei C.
    Chemosphere; 2020 Aug 24; 253():126767. PubMed ID: 32464763
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  • 18. Salicylaldimine-based metal-organic framework enabling highly active olefin hydrogenation with iron and cobalt catalysts.
    Manna K, Zhang T, Carboni M, Abney CW, Lin W.
    J Am Chem Soc; 2014 Sep 24; 136(38):13182-5. PubMed ID: 25187995
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  • 19. Controlled Pyrolysis of Ni-MOF-74 as a Promising Precursor for the Creation of Highly Active Ni Nanocatalysts in Size-Selective Hydrogenation.
    Nakatsuka K, Yoshii T, Kuwahara Y, Mori K, Yamashita H.
    Chemistry; 2018 Jan 19; 24(4):898-905. PubMed ID: 29115699
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  • 20. Hydrogenation and dehydrogenation iron pincer catalysts capable of metal-ligand cooperation by aromatization/dearomatization.
    Zell T, Milstein D.
    Acc Chem Res; 2015 Jul 21; 48(7):1979-94. PubMed ID: 26079678
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