Cite
3D hypoxia-mimicking and anti-synechia hydrogel enabling promoted neovascularization for renal injury repair and regeneration
MLA
Yuehang Zhang, et al. “3D Hypoxia-Mimicking and Anti-Synechia Hydrogel Enabling Promoted Neovascularization for Renal Injury Repair and Regeneration.” Materials Today Bio, vol. 21, no. 100694-, Aug. 2023. EBSCOhost, https://doi.org/10.1016/j.mtbio.2023.100694.
APA
Yuehang Zhang, Lei Yu, Renjie Qiu, Lisha Cao, Genlan Ye, Rurong Lin, Yongqin Wang, Guobao Wang, Bianxiang Hu, & Honghao Hou. (2023). 3D hypoxia-mimicking and anti-synechia hydrogel enabling promoted neovascularization for renal injury repair and regeneration. Materials Today Bio, 21(100694-). https://doi.org/10.1016/j.mtbio.2023.100694
Chicago
Yuehang Zhang, Lei Yu, Renjie Qiu, Lisha Cao, Genlan Ye, Rurong Lin, Yongqin Wang, Guobao Wang, Bianxiang Hu, and Honghao Hou. 2023. “3D Hypoxia-Mimicking and Anti-Synechia Hydrogel Enabling Promoted Neovascularization for Renal Injury Repair and Regeneration.” Materials Today Bio 21 (100694-). doi:10.1016/j.mtbio.2023.100694.