Cite
Charge-switchable, anti-oxidative molecule tuned polyelectrolyte multilayered films: Amplified polyelectrolyte diffusivity and accelerated diabetes wound healing.
MLA
Zheng, Gang, et al. “Charge-Switchable, Anti-Oxidative Molecule Tuned Polyelectrolyte Multilayered Films: Amplified Polyelectrolyte Diffusivity and Accelerated Diabetes Wound Healing.” Chemical Engineering Journal, vol. 416, July 2021, p. N.PAG. EBSCOhost, https://doi.org/10.1016/j.cej.2021.129521.
APA
Zheng, G., Zhang, D., Tang, Q., Ma, H.-W., Dong, X.-Y., Chen, Y.-L., Ni, W.-F., Wang, B.-L., Xu, H.-Z., & Shen, L.-Y. (2021). Charge-switchable, anti-oxidative molecule tuned polyelectrolyte multilayered films: Amplified polyelectrolyte diffusivity and accelerated diabetes wound healing. Chemical Engineering Journal, 416, N.PAG. https://doi.org/10.1016/j.cej.2021.129521
Chicago
Zheng, Gang, Di Zhang, Qian Tang, Hai-Wei Ma, Xiao-Yu Dong, Yan-Lin Chen, Wen-Fei Ni, Bai-Liang Wang, Hua-Zi Xu, and Li-Yan Shen. 2021. “Charge-Switchable, Anti-Oxidative Molecule Tuned Polyelectrolyte Multilayered Films: Amplified Polyelectrolyte Diffusivity and Accelerated Diabetes Wound Healing.” Chemical Engineering Journal 416 (July): N.PAG. doi:10.1016/j.cej.2021.129521.