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    Journals >Journal of Inorganic Materials >Volume 37 >Issue 11 >Page 1203 > Article
    • Journal of Inorganic Materials
    • Vol. 37, Issue 11, 1203 (2022)
    Copper-incorporated Calcium Silicate Nanorods Composite Hydrogels for Tumor Therapy and Skin Wound Healing
    Aijun WU1、2, Min ZHU1、*, and Yufang ZHU2、*
    Author Affiliations
  • 11. School of Materials and Chemistry, University of Shanghai for Science and Technology, Shanghai 200093, China
  • 22. State Key Laboratory of High Performance Ceramics and Superfine Microstructures, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
    • show less
    DOI: 10.15541/jim20220164 Cite this Article
    Aijun WU, Min ZHU, Yufang ZHU. Copper-incorporated Calcium Silicate Nanorods Composite Hydrogels for Tumor Therapy and Skin Wound Healing[J]. Journal of Inorganic Materials, 2022, 37(11): 1203 Copy Citation Text show less
    XRD patterns of Cu-CS powders prepared by molten salt method with (a) different amounts of copper salt and (b) different temperatures
    1. XRD patterns of Cu-CS powders prepared by molten salt method with (a) different amounts of copper salt and (b) different temperatures
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    SEM images of (a) CSH, (b) CS and (c) 3Cu-CS powders
    2. SEM images of (a) CSH, (b) CS and (c) 3Cu-CS powders
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    (a) TEM image, (b) EDS spectrum and (c) elemental mapping of 3Cu-CS nanorods
    3. (a) TEM image, (b) EDS spectrum and (c) elemental mapping of 3Cu-CS nanorods
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    (a) Cu2p XPS spectrum of 3Cu-CS nanorods, Cu amounts of Cu-CS nanorods prepared with (b) different copper salt additions and (c) different temperatures by ICP-AES method, respectively. *p< 0.05, **p< 0.01, ***p< 0.001
    4. (a) Cu2p XPS spectrum of 3Cu-CS nanorods, Cu amounts of Cu-CS nanorods prepared with (b) different copper salt additions and (c) different temperatures by ICP-AES method, respectively. *p< 0.05, **p< 0.01, ***p< 0.001
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    Chemodynamic effects of Cu-CS nanorods
    5. Chemodynamic effects of Cu-CS nanorods
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    SEM images of the surfaces and cross sections for (a, d1, d2) SA, (b, e1, e2) 20%-CS/SA and (c, f1, f2) 20%-Cu-CS/SA hydrogels
    6. SEM images of the surfaces and cross sections for (a, d1, d2) SA, (b, e1, e2) 20%-CS/SA and (c, f1, f2) 20%-Cu-CS/SA hydrogels
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    Release behaviors of (a) Ca, (b) Si and (c) Cu ions from SA, 20%-CS/SA and 20%-Cu-CS/SA hydrogels in Tris-HCl buffer
    7. Release behaviors of (a) Ca, (b) Si and (c) Cu ions from SA, 20%-CS/SA and 20%-Cu-CS/SA hydrogels in Tris-HCl buffer
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    Chemodynamic effects of Cu-CS/SA hydrogels
    8. Chemodynamic effects of Cu-CS/SA hydrogels
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    Cell viabilities of HUVECs and HDFs after 24 h incubation with hydrogels incorporated with different contents of Cu-CS nanorods
    9. Cell viabilities of HUVECs and HDFs after 24 h incubation with hydrogels incorporated with different contents of Cu-CS nanorods
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    Fluorescence images of B16F10 cells after different treatments for observing intracellular ROS
    10. Fluorescence images of B16F10 cells after different treatments for observing intracellular ROS
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    Cell viability of B16F10 cells after different treatments
    11. Cell viability of B16F10 cells after different treatments
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    Cell proliferations of (a) HUVECs and (b) HDFs cultured with different hydrogels
    12. Cell proliferations of (a) HUVECs and (b) HDFs cultured with different hydrogels
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    (a, b) Cell migration images and (c, d) corresponding migration rates of (a, c) HUVECs and (b, d) HDFs after cultured with SA, 20%-CS/SA and 20%-Cu-CS/SA hydrogels for 24 h, respectively ( **: p< 0.01)
    13. (a, b) Cell migration images and (c, d) corresponding migration rates of (a, c) HUVECs and (b, d) HDFs after cultured with SA, 20%-CS/SA and 20%-Cu-CS/SA hydrogels for 24 h, respectively ( **: p< 0.01)
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    Aijun WU, Min ZHU, Yufang ZHU. Copper-incorporated Calcium Silicate Nanorods Composite Hydrogels for Tumor Therapy and Skin Wound Healing[J]. Journal of Inorganic Materials, 2022, 37(11): 1203
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