MarÃn-González, N.; Giraldo-Loaiza, C.; MacÃas-Quiroga, I.F.; Rivera-Giraldo, J.D.; Cardona-Castaño, J.A.; Sanabria-González, N.R.
Oxidation of Allura Red AC Using the NaHCO3-activated H2O2 System Catalyzed with Cobalt Supported on Al-PILC. ChemEngineering 2024, 8, 14.
https://doi.org/10.3390/chemengineering8010014
AMA Style
MarÃn-González N, Giraldo-Loaiza C, MacÃas-Quiroga IF, Rivera-Giraldo JD, Cardona-Castaño JA, Sanabria-González NR.
Oxidation of Allura Red AC Using the NaHCO3-activated H2O2 System Catalyzed with Cobalt Supported on Al-PILC. ChemEngineering. 2024; 8(1):14.
https://doi.org/10.3390/chemengineering8010014
Chicago/Turabian Style
MarÃn-González, Natalia, Camila Giraldo-Loaiza, Iván F. MacÃas-Quiroga, Juan D. Rivera-Giraldo, Julio A. Cardona-Castaño, and Nancy R. Sanabria-González.
2024. "Oxidation of Allura Red AC Using the NaHCO3-activated H2O2 System Catalyzed with Cobalt Supported on Al-PILC" ChemEngineering 8, no. 1: 14.
https://doi.org/10.3390/chemengineering8010014
APA Style
MarÃn-González, N., Giraldo-Loaiza, C., MacÃas-Quiroga, I. F., Rivera-Giraldo, J. D., Cardona-Castaño, J. A., & Sanabria-González, N. R.
(2024). Oxidation of Allura Red AC Using the NaHCO3-activated H2O2 System Catalyzed with Cobalt Supported on Al-PILC. ChemEngineering, 8(1), 14.
https://doi.org/10.3390/chemengineering8010014
