TY - JOUR
T1 - Modified cellulose/poly(3,4-ethylenedioxythiophene) composite as photocatalyst for the removal of sulindac and carbamazepine from water
AU - Ledezma-Espinoza, Aura
AU - Rodríguez-Quesada, Laria
AU - Araya-Leitón, María
AU - Avendaño-Soto, Esteban D.
AU - Starbird-Perez, Ricardo
N1 - Publisher Copyright:
© 2022 The Author(s)
PY - 2022/8
Y1 - 2022/8
N2 - Pharmaceutical compounds have been widely recognized as emerging contaminants around the world. Advanced oxidation processes using photocatalysts and ultraviolet radiation have been a successful integrated strategy for the removal of active pharmaceutical ingredients from polluted waters. In this research, an environmentally-friendly photocatalytic system operating under ambient conditions was developed. A conductive polymer composite was synthesized using gamma irradiated cellulose as template and coated with poly(3,4-ethylenedioxythiophene). Gamma irradiation was applied as a green technology to functionalize cellulose, improving its stability in water and reducing its size. Our process proved to be a feasible technique to obtain stable particles in dispersion, confirmed by measuring their surface ζ-potential in water. The conductive polymer onto the composite catalyzed the photodegradation of highly persistent compounds sulindac and carbamazepine, showing outstanding catalytic effects within 7 h of exposure under near ultraviolet (UV-A) light at pH 7. Removal efficiency of sulindac reached 89% and degradation of carbamazepine was 30% after pouring the composite into the photodegradative treatment. Similar results were achieved from mixture of both compounds. The composite reusability revealed that particle stability and photocatalytic activity were preserved even after repeating the degradation cycle. Our study showed a promising novel photocatalyst, synthetized through green technologies that can be used as a potential treatment for pharmaceutically active contaminants in water.
AB - Pharmaceutical compounds have been widely recognized as emerging contaminants around the world. Advanced oxidation processes using photocatalysts and ultraviolet radiation have been a successful integrated strategy for the removal of active pharmaceutical ingredients from polluted waters. In this research, an environmentally-friendly photocatalytic system operating under ambient conditions was developed. A conductive polymer composite was synthesized using gamma irradiated cellulose as template and coated with poly(3,4-ethylenedioxythiophene). Gamma irradiation was applied as a green technology to functionalize cellulose, improving its stability in water and reducing its size. Our process proved to be a feasible technique to obtain stable particles in dispersion, confirmed by measuring their surface ζ-potential in water. The conductive polymer onto the composite catalyzed the photodegradation of highly persistent compounds sulindac and carbamazepine, showing outstanding catalytic effects within 7 h of exposure under near ultraviolet (UV-A) light at pH 7. Removal efficiency of sulindac reached 89% and degradation of carbamazepine was 30% after pouring the composite into the photodegradative treatment. Similar results were achieved from mixture of both compounds. The composite reusability revealed that particle stability and photocatalytic activity were preserved even after repeating the degradation cycle. Our study showed a promising novel photocatalyst, synthetized through green technologies that can be used as a potential treatment for pharmaceutically active contaminants in water.
KW - Conductive composite
KW - Functionalized cellulose
KW - Gamma irradiation
KW - Pharmaceutical compounds
KW - Photocatalysis
UR - http://www.scopus.com/inward/record.url?scp=85127118892&partnerID=8YFLogxK
U2 - 10.1016/j.eti.2022.102483
DO - 10.1016/j.eti.2022.102483
M3 - Artículo
AN - SCOPUS:85127118892
SN - 2352-1864
VL - 27
JO - Environmental Technology and Innovation
JF - Environmental Technology and Innovation
M1 - 102483
ER -