Metabolites from scutellarin alleviating deferoxamine-induced hypoxia injury in BV2 cells cultured on microfluidic chip combined with a mass spectrometer.

MLA

Chen, Shiyu, et al. “Metabolites from Scutellarin Alleviating Deferoxamine-Induced Hypoxia Injury in BV2 Cells Cultured on Microfluidic Chip Combined with a Mass Spectrometer.” Talanta, vol. 259, July 2023, p. 124478. EBSCOhost, https://doi.org/10.1016/j.talanta.2023.124478.

APA

Chen, S., Fan, F., Zhang, Y., Zeng, J., Li, Y., Xu, N., Zhang, Y., Meng, X.-L., & Lin, J.-M. (2023). Metabolites from scutellarin alleviating deferoxamine-induced hypoxia injury in BV2 cells cultured on microfluidic chip combined with a mass spectrometer. Talanta, 259, 124478. https://doi.org/10.1016/j.talanta.2023.124478

Chicago

Chen, Shiyu, Fangfang Fan, Yingrui Zhang, Jiuseng Zeng, Yuxuan Li, Ning Xu, Yi Zhang, Xian-Li Meng, and Jin-Ming Lin. 2023. “Metabolites from Scutellarin Alleviating Deferoxamine-Induced Hypoxia Injury in BV2 Cells Cultured on Microfluidic Chip Combined with a Mass Spectrometer.” Talanta 259 (July): 124478. doi:10.1016/j.talanta.2023.124478.