• “Lignin valorization for the production of renewable chemicals by electrochemical advanced oxidation processes” Proyecto Fondecyt de Iniciación 11191105
  • “Evaluation of organic matter and organic micropollutants removal contained on hospital wastewater treated by electrochemical advanced oxidation processes”. Investigador Responsable Proyecto FONDECYT Postdoctorado (2015 – 2017).


  • Ben Hammouda, S., Salazar, C., Zhao, F., Ramasamya, D., Laklova, E., Iftekhara, S., Babua, I., Sillanpää, M. “Efficient heterogeneous electro-Fenton incineration of a contaminant of emergent concern-cotinine- in aqueous medium using the magnetic double perovskite oxide Sr2FeCuO6 as a highly stable catalayst: Degradation kinetics and oxidation products”. Applied Catalysis B: Environmental, 240 (2019), 201-2014.
  • Candia-Onfray, C., Thiam, A., Salazar, C., Martinez-Huitle, C.A., Salazar, R. “Enhanced degradation of the industrial textile dye disperse red BG by electrochemical process with different anodes”. Journal of the Electrochemical Society, 164 (2017) 440-447.
  • Ridruejo, C., Salazar, C., Cabot, P.L., Centellas, F., Brillas, E., Sirés, I. “Electrochemical oxidation of anesthetic tetracaine in aqueous medium. Influence of the anode and matrix composition”. Chemical Engineering Journal, 326 (2017), 811-819.
  • Salazar, C., Ridruejo, C., Brillas, E., Yáñez, J., Mansilla, H.D. & Sirés, I. “Abatement of the fluorinated antidepressant fluoxetine (Prozac) and its reaction by-products by electrochemical advanced methods”. Applied Catalysis B: Environmental, 203 (2017), 189-198.
  • Salazar, C., Contreras, N, Mansilla, H.D., Yáñez, J. & Salazar, R. “Electrochemical degradation of the antihypertensive losartan in aqueous medium by electro-oxidation with boron-doped diamond electrode”. Journal of Hazardous Materials, 319 (2016), 84-92.
  • Jarpa, M., Rozas, O., Salazar, C., Baeza, C., Campos, J.L., Mansilla, H.D. &Vidal, G. “Comparison of the chemical precipitation, UV/H2O2 and Fenton processes to optimize removal of chronic toxicity from kraft mill effluents”. Desalination and Water Treatment, 57 (2016), 13887-13896.
  • Salazar, C., Sirés, I., Salazar, R., Mansilla, H.D. & Zaror, C.A. “Treatment of cellulose bleaching effluents and their filtration permeates by anodic oxidation with H2O2 production”. Journal of Chemical Technology and Biotechnology, 90 (2015), 2017-2026.
  • Salazar, C., Sirés, I., Zaror, C.A. & Brillas, E. “Treatment of a mixture of chloromethoxyphenols in hypochlorite medium by electrochemical AOPs as an alternative for the remediation of pulp and paper mill process waters”. Electrocatalysis, 4 (2013), 212-223.
  • Salazar, C., Mondaca, M.A., González, P., Mansilla, H.D., Peña, C. & Zaror, C.A. “Advanced electrochemical oxidation of ultrafiltration permeates from cellulose bleaching effluents”. Journal Advanced Oxidation Technologies, 15 (2012), 254-265.
  • Salazar, C., Teixeira, R., Baeza, J. & Freer, J. “Kraft pulping and ECF bleaching of Eucalyptus globulus pretreated by the white-rot fungus Ceriporiopsis subvermispora”. Acta Scientiarum. Technology, 34 (2012), 277-281.
  • Zaror, C.A., Salazar, C., Araneda, E.A., Mondaca, M.A., Mansilla, H.D. & Peña, C. “Electrochemical treatment of segregated effluents from the D-stage in ECF kraft cellulose bleaching”. Journal Advanced Oxidation Technologies, 14 (2011), 47-53.
  • Monrroy, M., Teixeira, R., Salazar, C., Rodriguez, J., Baeza, J. & Freer, J. “Effect of pulping conditions on the amount of methylglucuronic and hexenuronic acids in kraft pulps of Eucalyptus globulus”. Appita Journal, 61 (2008), 212-215.
  • Mendonça, R., Salazar, C., Rodríguez, J., Baeza, J. & Freer, J. “Quantification of hexenuronic acids in biokraft pulping of Eucalyptus globulus”. O Papel, 57 (2006), 74-81.

Líneas de Investigación:

  • Electroquímica ambiental
  • Procesos de oxidación avanzada
  • Tratamiento de aguas residuales