Cite
Ascorbate oxidation driven by PM2.5-bound metal(loid)s extracted in an acidic simulated lung fluid in relation to their bioaccessibility.
MLA
Expósito, A., et al. “Ascorbate Oxidation Driven by PM2.5-Bound Metal(Loid)s Extracted in an Acidic Simulated Lung Fluid in Relation to Their Bioaccessibility.” Air Quality, Atmosphere & Health, vol. 17, no. 1, Jan. 2024, pp. 177–89. EBSCOhost, https://doi.org/10.1007/s11869-023-01436-8.
APA
Expósito, A., Markiv, B., Santibáñez, M., Fadel, M., Ledoux, F., Courcot, D., & Fernández-Olmo, I. (2024). Ascorbate oxidation driven by PM2.5-bound metal(loid)s extracted in an acidic simulated lung fluid in relation to their bioaccessibility. Air Quality, Atmosphere & Health, 17(1), 177–189. https://doi.org/10.1007/s11869-023-01436-8
Chicago
Expósito, A., B. Markiv, M. Santibáñez, M. Fadel, F. Ledoux, D. Courcot, and I. Fernández-Olmo. 2024. “Ascorbate Oxidation Driven by PM2.5-Bound Metal(Loid)s Extracted in an Acidic Simulated Lung Fluid in Relation to Their Bioaccessibility.” Air Quality, Atmosphere & Health 17 (1): 177–89. doi:10.1007/s11869-023-01436-8.