Cite
High-temperature PTT/CDT coordination nanoplatform realizing exacerbated hypoxia for enhancing hypoxia-activated chemotherapy to overcome tumor drug resistance.
MLA
Chang, Peng, et al. “High-Temperature PTT/CDT Coordination Nanoplatform Realizing Exacerbated Hypoxia for Enhancing Hypoxia-Activated Chemotherapy to Overcome Tumor Drug Resistance.” Journal of Nanobiotechnology, vol. 22, no. 1, June 2024, pp. 1–21. EBSCOhost, https://doi.org/10.1186/s12951-024-02653-8.
APA
Chang, P., Guo, Y., Chen, D., Li, K., Wang, W., Yang, Z., Ma, J., Zeng, Y., Zhan, W., & Zhan, Y. (2024). High-temperature PTT/CDT coordination nanoplatform realizing exacerbated hypoxia for enhancing hypoxia-activated chemotherapy to overcome tumor drug resistance. Journal of Nanobiotechnology, 22(1), 1–21. https://doi.org/10.1186/s12951-024-02653-8
Chicago
Chang, Peng, Yingying Guo, Dan Chen, Ke Li, Wei Wang, Zhihua Yang, Jingwen Ma, Yun Zeng, Wenhua Zhan, and Yonghua Zhan. 2024. “High-Temperature PTT/CDT Coordination Nanoplatform Realizing Exacerbated Hypoxia for Enhancing Hypoxia-Activated Chemotherapy to Overcome Tumor Drug Resistance.” Journal of Nanobiotechnology 22 (1): 1–21. doi:10.1186/s12951-024-02653-8.