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Journal Abstract Search

769 related items for PubMed ID: 30234960

  • 1. Modulating Hypoxia via Nanomaterials Chemistry for Efficient Treatment of Solid Tumors.
    Liu Y, Jiang Y, Zhang M, Tang Z, He M, Bu W.
    Acc Chem Res; 2018 Oct 16; 51(10):2502-2511. PubMed ID: 30234960
    [Abstract] [Full Text] [Related]

  • 2. Near-infrared photoactivatable three-in-one nanoagents to aggravate hypoxia and enable amplified photo-chemotherapy.
    Yu N, Zhou J, Xu H, Wang F, Wang X, Tang L, Li J, Wang X, Lu X.
    Biomater Adv; 2024 Oct 16; 163():213962. PubMed ID: 39032435
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  • 3. An engineered cascade-sensitized red-emitting upconversion nanoplatform with a tandem hydrophobic hydration-shell and metal-phenolic network decoration for single 808 nm triggered simultaneous tumor PDT and PTT enhanced CDT.
    Li Y, Ding Y, Zhang Y, Sun Z, Liu J, Dai M, Feng J, Li B, Wang C, Wei Y, Shen JW.
    Nanoscale; 2023 Jun 15; 15(23):10067-10078. PubMed ID: 37249048
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  • 4. Semiconducting Polymer Nanomaterials as Near-Infrared Photoactivatable Protherapeutics for Cancer.
    Li J, Pu K.
    Acc Chem Res; 2020 Apr 21; 53(4):752-762. PubMed ID: 32027481
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  • 9. Covalent Organic Framework Nanocarriers of Singlet Oxygen for Oxygen-Independent Concurrent Photothermal/Photodynamic Therapy to Ablate Hypoxic Tumors.
    Dutta D, Wang J, Li X, Zhou Q, Ge Z.
    Small; 2022 Sep 21; 18(37):e2202369. PubMed ID: 35971160
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  • 10. A redox-activatable biopolymer-based micelle for sequentially enhanced mitochondria-targeted photodynamic therapy and hypoxia-dependent chemotherapy.
    Li Y, Sutrisno L, Hou Y, Fei Y, Xue C, Hu Y, Li M, Luo Z.
    Chem Commun (Camb); 2020 Sep 07; 56(69):9978-9981. PubMed ID: 32851998
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  • 11. Nanomaterials for Deep Tumor Treatment.
    Kirsanova DY, Gadzhimagomedova ZM, Maksimov AY, Soldatov AV.
    Mini Rev Med Chem; 2021 Sep 07; 21(6):677-688. PubMed ID: 33176645
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  • 14. MnFe2O4-decorated large-pore mesoporous silica-coated upconversion nanoparticles for near-infrared light-induced and O2 self-sufficient photodynamic therapy.
    Ding B, Shao S, Xiao H, Sun C, Cai X, Jiang F, Zhao X, Ma P, Lin J.
    Nanoscale; 2019 Aug 08; 11(31):14654-14667. PubMed ID: 31355836
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  • 15. Ce6-Modified Carbon Dots for Multimodal-Imaging-Guided and Single-NIR-Laser-Triggered Photothermal/Photodynamic Synergistic Cancer Therapy by Reduced Irradiation Power.
    Sun S, Chen J, Jiang K, Tang Z, Wang Y, Li Z, Liu C, Wu A, Lin H.
    ACS Appl Mater Interfaces; 2019 Feb 13; 11(6):5791-5803. PubMed ID: 30648846
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  • 17. Recent progress in the development of near-infrared organic photothermal and photodynamic nanotherapeutics.
    Zhu H, Cheng P, Chen P, Pu K.
    Biomater Sci; 2018 Mar 26; 6(4):746-765. PubMed ID: 29485662
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  • 18. Construction of a near-infrared responsive upconversion nanoplatform against hypoxic tumors via NO-enhanced photodynamic therapy.
    Lan Y, Zhu X, Tang M, Wu Y, Zhang J, Liu J, Zhang Y.
    Nanoscale; 2020 Apr 14; 12(14):7875-7887. PubMed ID: 32227004
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  • 19. Two-photon excitation nanoparticles for photodynamic therapy.
    Shen Y, Shuhendler AJ, Ye D, Xu JJ, Chen HY.
    Chem Soc Rev; 2016 Dec 21; 45(24):6725-6741. PubMed ID: 27711672
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  • 20. Biomedical engineered nanomaterials to alleviate tumor hypoxia for enhanced photodynamic therapy.
    Lai C, Luo B, Shen J, Shao J.
    Pharmacol Res; 2022 Dec 21; 186():106551. PubMed ID: 36370918
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