Photodegradation of Rhodamine B and Bisphenol A Over Visible-Light Driven Bi7O9I3-and Bi12O17Cl2-Photocatalysts Under White LED Irradiation

Damian Tuba-Guaman; Michael Zuarez-Chamba; Luis Quishpe-Quishpe; Carlos Reinoso; Cristian P. Santacruz; Miguel Herrera-Robledo; Pablo A. Cisneros-Pérez

doi:10.1007/s11244-022-01689-0

Photodegradation of Rhodamine B and Bisphenol A Over Visible-Light Driven Bi₇O₉I₃-and Bi₁₂O₁₇Cl₂-Photocatalysts Under White LED Irradiation

Damian Tuba-Guaman, Michael Zuarez-Chamba, Luis Quishpe-Quishpe, Carlos Reinoso, Cristian P. Santacruz, Miguel Herrera-Robledo, Pablo A. Cisneros-Pérez

Facultad de Ciencias Socio Ambientales

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

Two different bismuth oxyhalides photocatalysts Bi₇O₉I₃ and Bi₁₂O₁₇Cl₂ were obtained by oil bath and hydrothermal methods. The micro/nano-structures obtained were characterized by XRD, SEM, DRS and XPS. The XRD patterns are identical to those already reported. SEM revealed the formation of hierarchical micro/nano structures for Bi₇O₉I₃ and nanobelts for Bi₁₂O₁₇Cl₂. Band gap values were determined for both catalysts from DRS and XPS data. The photocatalytic degradation of Rhodamine B and Bisphenol A were studied with both bismuth oxyhalides and compared with commercial titanium dioxide (TiO₂). As light source was used a white Light-Emiting Diode lamp. As expected, a poor photocatalytic degradation was obtained in presence of TiO₂, but significant drops of concentrations in presence of the bismuth oxyhalides was observed. However, the mineralization of both polluntants was higher in presence of Bi₁₂O₁₇Cl₂ than with Bi₇O₉I₃. In addition, a great part of Rhodamine B was removed by Bi₇O₉I₃ in the dark, which is attributed to its morphological features. In contrast, Bisphenol A was degraded under visible light irradiation without significant adsorption.

Idioma original	Inglés
Páginas (desde-hasta)	1028-1044
Número de páginas	17
Publicación	Topics in Catalysis
Volumen	65
N.º	9-12
DOI	https://doi.org/10.1007/s11244-022-01689-0
Estado	Publicada - ago. 2022

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Publisher Copyright:
© 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.

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title = "Photodegradation of Rhodamine B and Bisphenol A Over Visible-Light Driven Bi7O9I3-and Bi12O17Cl2-Photocatalysts Under White LED Irradiation",

abstract = "Two different bismuth oxyhalides photocatalysts Bi7O9I3 and Bi12O17Cl2 were obtained by oil bath and hydrothermal methods. The micro/nano-structures obtained were characterized by XRD, SEM, DRS and XPS. The XRD patterns are identical to those already reported. SEM revealed the formation of hierarchical micro/nano structures for Bi7O9I3 and nanobelts for Bi12O17Cl2. Band gap values were determined for both catalysts from DRS and XPS data. The photocatalytic degradation of Rhodamine B and Bisphenol A were studied with both bismuth oxyhalides and compared with commercial titanium dioxide (TiO2). As light source was used a white Light-Emiting Diode lamp. As expected, a poor photocatalytic degradation was obtained in presence of TiO2, but significant drops of concentrations in presence of the bismuth oxyhalides was observed. However, the mineralization of both polluntants was higher in presence of Bi12O17Cl2 than with Bi7O9I3. In addition, a great part of Rhodamine B was removed by Bi7O9I3 in the dark, which is attributed to its morphological features. In contrast, Bisphenol A was degraded under visible light irradiation without significant adsorption.",

keywords = "Bismuth oxyhalides, Bisphenol A, LED, Photocatalysis, Rhodamine B, Visible light",

author = "Damian Tuba-Guaman and Michael Zuarez-Chamba and Luis Quishpe-Quishpe and Carlos Reinoso and Santacruz, {Cristian P.} and Miguel Herrera-Robledo and Cisneros-P{\'e}rez, {Pablo A.}",

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month = aug,

doi = "10.1007/s11244-022-01689-0",

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Photodegradation of Rhodamine B and Bisphenol A Over Visible-Light Driven Bi₇O₉I₃-and Bi₁₂O₁₇Cl₂-Photocatalysts Under White LED Irradiation. / Tuba-Guaman, Damian; Zuarez-Chamba, Michael; Quishpe-Quishpe, Luis et al.
En: Topics in Catalysis, Vol. 65, N.º 9-12, 08.2022, p. 1028-1044.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Photodegradation of Rhodamine B and Bisphenol A Over Visible-Light Driven Bi7O9I3-and Bi12O17Cl2-Photocatalysts Under White LED Irradiation

AU - Tuba-Guaman, Damian

AU - Zuarez-Chamba, Michael

AU - Quishpe-Quishpe, Luis

AU - Reinoso, Carlos

AU - Santacruz, Cristian P.

AU - Herrera-Robledo, Miguel

AU - Cisneros-Pérez, Pablo A.

PY - 2022/8

Y1 - 2022/8

N2 - Two different bismuth oxyhalides photocatalysts Bi7O9I3 and Bi12O17Cl2 were obtained by oil bath and hydrothermal methods. The micro/nano-structures obtained were characterized by XRD, SEM, DRS and XPS. The XRD patterns are identical to those already reported. SEM revealed the formation of hierarchical micro/nano structures for Bi7O9I3 and nanobelts for Bi12O17Cl2. Band gap values were determined for both catalysts from DRS and XPS data. The photocatalytic degradation of Rhodamine B and Bisphenol A were studied with both bismuth oxyhalides and compared with commercial titanium dioxide (TiO2). As light source was used a white Light-Emiting Diode lamp. As expected, a poor photocatalytic degradation was obtained in presence of TiO2, but significant drops of concentrations in presence of the bismuth oxyhalides was observed. However, the mineralization of both polluntants was higher in presence of Bi12O17Cl2 than with Bi7O9I3. In addition, a great part of Rhodamine B was removed by Bi7O9I3 in the dark, which is attributed to its morphological features. In contrast, Bisphenol A was degraded under visible light irradiation without significant adsorption.

AB - Two different bismuth oxyhalides photocatalysts Bi7O9I3 and Bi12O17Cl2 were obtained by oil bath and hydrothermal methods. The micro/nano-structures obtained were characterized by XRD, SEM, DRS and XPS. The XRD patterns are identical to those already reported. SEM revealed the formation of hierarchical micro/nano structures for Bi7O9I3 and nanobelts for Bi12O17Cl2. Band gap values were determined for both catalysts from DRS and XPS data. The photocatalytic degradation of Rhodamine B and Bisphenol A were studied with both bismuth oxyhalides and compared with commercial titanium dioxide (TiO2). As light source was used a white Light-Emiting Diode lamp. As expected, a poor photocatalytic degradation was obtained in presence of TiO2, but significant drops of concentrations in presence of the bismuth oxyhalides was observed. However, the mineralization of both polluntants was higher in presence of Bi12O17Cl2 than with Bi7O9I3. In addition, a great part of Rhodamine B was removed by Bi7O9I3 in the dark, which is attributed to its morphological features. In contrast, Bisphenol A was degraded under visible light irradiation without significant adsorption.

KW - Bismuth oxyhalides

KW - Bisphenol A

KW - LED

KW - Photocatalysis

KW - Rhodamine B

KW - Visible light

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DO - 10.1007/s11244-022-01689-0

M3 - Artículo

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SN - 1022-5528

VL - 65

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JO - Topics in Catalysis

JF - Topics in Catalysis

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