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Journal Abstract Search

248 related items for PubMed ID: 33988893

  • 1. Charge Transfer Metal-Organic Framework Containing Redox-Active TTF/NDI Units for Highly Efficient Near-Infrared Photothermal Conversion.
    Yan T, Li YY, Su J, Wang HY, Zuo JL.
    Chemistry; 2021 Aug 02; 27(43):11050-11055. PubMed ID: 33988893
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  • 2. A Tetrathiafulvalene/Naphthalene Diimide-Containing Metal-Organic Framework with fsc Topology for Highly Efficient Near-Infrared Photothermal Conversion.
    Yan T, Li YY, Gu QY, Li J, Su J, Wang HY, Zuo JL.
    Inorg Chem; 2022 Feb 21; 61(7):3078-3085. PubMed ID: 35142506
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  • 3. Enhancing the photothermal conversion of tetrathiafulvalene-based MOFs by redox doping and plasmon resonance.
    Su J, Cai P, Yan T, Yang ZM, Yuan S, Zuo JL, Zhou HC.
    Chem Sci; 2022 Feb 09; 13(6):1657-1664. PubMed ID: 35282630
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  • 4. Persistent Radical Tetrathiafulvalene-Based 2D Metal-Organic Frameworks and Their Application in Efficient Photothermal Conversion.
    Su J, Xu N, Murase R, Yang ZM, D'Alessandro DM, Zuo JL, Zhu J.
    Angew Chem Int Ed Engl; 2021 Feb 23; 60(9):4789-4795. PubMed ID: 33236501
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  • 5. Integrating Tetrathiafulvalene and Nickel-Bis(dithiolene) Units into Donor-Acceptor Covalent Organic Frameworks for Stable and Efficient Photothermal Conversion.
    Li YY, Wei T, Liu C, Zhang Z, Wu LF, Ding M, Yuan S, Zhu J, Zuo JL.
    Chemistry; 2023 Jun 19; 29(34):e202301048. PubMed ID: 37022345
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  • 7. 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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  • 12. Accessible Tetrathiafulvalene Moieties in a 3D Covalent Organic Framework for Enhanced Near-Infrared Photo-Thermal Conversion and Photo-Electrical Response.
    Ma TR, Ge F, Ke SW, Lv S, Yang ZM, Zhou XC, Liu C, Wu XJ, Yuan S, Zuo JL.
    Small; 2024 Apr 16; 20(14):e2308013. PubMed ID: 37988642
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  • 13. An Iron-NDC Framework with a Cage Structure and an Optothermal Conversion in NIR Window.
    Tan B, Wu ZF, Huang XY.
    Molecules; 2022 Dec 11; 27(24):. PubMed ID: 36557920
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  • 14. A 3D tetrathiafulvalene-based metal-organic framework with intramolecular charge transfer for efficient near-infrared photothermal conversion.
    Zhang Y, Xia ZW, Shen LJ, Tang H, Luo XF, Li X, Xiao X.
    Chem Commun (Camb); 2023 Sep 21; 59(76):11429-11432. PubMed ID: 37671497
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  • 15. Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating.
    Beiler AM, McCarthy BD, Johnson BA, Ott S.
    Nat Commun; 2020 Nov 16; 11(1):5819. PubMed ID: 33199706
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  • 16. Dual Metal-Organic Framework Heterointerface.
    Luo Y, Li J, Liu X, Tan L, Cui Z, Feng X, Yang X, Liang Y, Li Z, Zhu S, Zheng Y, Yeung KWK, Yang C, Wang X, Wu S.
    ACS Cent Sci; 2019 Sep 25; 5(9):1591-1601. PubMed ID: 31572786
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  • 18. Tuning Electrical- and Photo-Conductivity by Cation Exchange within a Redox-Active Tetrathiafulvalene-Based Metal-Organic Framework.
    Zhou Y, Yu F, Su J, Kurmoo M, Zuo JL.
    Angew Chem Int Ed Engl; 2020 Oct 12; 59(42):18763-18767. PubMed ID: 32652797
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  • 20. Interfacial Reduction Nucleation of Noble Metal Nanodots on Redox-Active Metal-Organic Frameworks for High-Efficiency Electrocatalytic Conversion of Nitrate to Ammonia.
    Jiang M, Su J, Song X, Zhang P, Zhu M, Qin L, Tie Z, Zuo JL, Jin Z.
    Nano Lett; 2022 Mar 23; 22(6):2529-2537. PubMed ID: 35266387
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