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Journal Abstract Search

157 related items for PubMed ID: 37872121

  • 1. Dominant Role of Hole Transport Pathway in Achieving Record High Photoconductivity in Two-Dimensional Metal-Organic Frameworks.
    Wang D, Ostresh S, Streater D, He P, Nyakuchena J, Ma Q, Zhang X, Neu J, Brudvig GW, Huang J.
    Angew Chem Int Ed Engl; 2023 Dec 11; 62(50):e202309505. PubMed ID: 37872121
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  • 3. Intertwining of Localized (d) and Delocalized (π) Spins in Magnetically Frustrated Two-Dimensional Metal-Organic Frameworks.
    Ugale A, Ninawe P, Jain A, Sangole M, Mandal R, Singh K, Ballav N.
    Inorg Chem; 2024 Feb 26; 63(8):3675-3681. PubMed ID: 38362775
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  • 5. Conductive Metal-Organic Frameworks with Tunable Dielectric Properties for Boosting Electromagnetic Wave Absorption.
    Zhang X, Tian XL, Qin Y, Qiao J, Pan F, Wu N, Wang C, Zhao S, Liu W, Cui J, Qian Z, Zhao M, Liu J, Zeng Z.
    ACS Nano; 2023 Jul 11; 17(13):12510-12518. PubMed ID: 37350557
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  • 6. Ag Nanoparticles-Induced Metallic Conductivity in Thin Films of 2D Metal-Organic Framework Cu3(HHTP)2.
    Saha S, Ananthram KS, Hassan N, Ugale A, Tarafder K, Ballav N.
    Nano Lett; 2023 Oct 25; 23(20):9326-9332. PubMed ID: 37843499
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  • 7. Electrochemical Sensor Based on Glassy-Carbon Electrode Modified with Dual-Ligand EC-MOFs Supported on rGO for BPA.
    Ye RH, Chen JY, Huang DH, Wang YJ, Chen S.
    Biosensors (Basel); 2022 May 27; 12(6):. PubMed ID: 35735515
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  • 8. Metal-Organic Framework Photoconductivity via Time-Resolved Terahertz Spectroscopy.
    Pattengale B, Neu J, Ostresh S, Hu G, Spies JA, Okabe R, Brudvig GW, Schmuttenmaer CA.
    J Am Chem Soc; 2019 Jun 26; 141(25):9793-9797. PubMed ID: 31179698
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  • 10. Charge Transport in Zirconium-Based Metal-Organic Frameworks.
    Kung CW, Goswami S, Hod I, Wang TC, Duan J, Farha OK, Hupp JT.
    Acc Chem Res; 2020 Jun 16; 53(6):1187-1195. PubMed ID: 32401008
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  • 11. Electrical conductivity through π-π stacking in a two-dimensional porous gallium catecholate metal-organic framework.
    Skorupskii G, Chanteux G, Le KN, Stassen I, Hendon CH, Dincă M.
    Ann N Y Acad Sci; 2022 Dec 16; 1518(1):226-230. PubMed ID: 36183322
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  • 13. Overcoming Diffusion Limitation of Faradaic Processes: Property-Performance Relationships of 2D Conductive Metal-Organic Framework Cu3 (HHTP)2 for Reversible Lithium-Ion Storage.
    Wrogemann JM, Lüther MJ, Bärmann P, Lounasvuori M, Javed A, Tiemann M, Golnak R, Xiao J, Petit T, Placke T, Winter M.
    Angew Chem Int Ed Engl; 2023 Jun 26; 62(26):e202303111. PubMed ID: 37069123
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  • 14. Ligand-Oxidation-Based Anodic Synthesis of Oriented Films of Conductive M-Catecholate Metal-Organic Frameworks with Controllable Thickness.
    Song M, Jia J, Li P, Peng J, Pang X, Qi M, Xu Y, Chen L, Chi L, Lu G.
    J Am Chem Soc; 2023 Nov 29; 145(47):25570-25578. PubMed ID: 37967022
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  • 15. Chemically Integrating a 2D Metal-Organic Framework with 2D Functionalized Graphene.
    Ninawe P, Gupta K, Ballav N.
    Inorg Chem; 2021 Dec 20; 60(24):19079-19085. PubMed ID: 34851108
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  • 16. Orientation Control of a Two-Dimensional Conductive Metal-Organic Framework Thin Film by a Pyridine Vapor-Assisted Dry Process.
    Chon S, Nakayama R, Iwamoto S, Kobayashi S, Shimizu R, Hitosugi T.
    ACS Appl Mater Interfaces; 2023 Dec 06; 15(48):56057-56063. PubMed ID: 38009945
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  • 20. Fabrication of Multifunctional Electronic Textiles Using Oxidative Restructuring of Copper into a Cu-Based Metal-Organic Framework.
    Eagleton AM, Ko M, Stolz RM, Vereshchuk N, Meng Z, Mendecki L, Levenson AM, Huang C, MacVeagh KC, Mahdavi-Shakib A, Mahle JJ, Peterson GW, Frederick BG, Mirica KA.
    J Am Chem Soc; 2022 Dec 28; 144(51):23297-23312. PubMed ID: 36512516
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