Desarrollo y aplicación de Xerogeles de carbono en el tratamiento de efluentes acuosos

  1. Mar Ortiz , Alondra Fabiola 1
  2. Salazar Rábago , Jacob Josafat 1
  3. Loredo Cancino , Margarita 1
  4. Sánchez Polo, Manuel 1
  5. Cerino Córdova, Felipe de Jesus
  1. 1 Universidad Autónoma de Nuevo León
    info

    Universidad Autónoma de Nuevo León

    San Nicolás de los Garza, México

    ROR https://ror.org/01fh86n78

Journal:
Química Hoy

ISSN: 2007-1183

Year of publication: 2019

Issue Title: Abril-Junio 2019

Volume: 9

Issue: 2

Pages: 12-20

Type: Article

DOI: 10.29105/QH9.2-255 DIALNET GOOGLE SCHOLAR lock_openOpen access editor

More publications in: Química Hoy

Abstract

Carbon xerogels are materials with an easy synthesis, to which various modifications can be made to their textural andoptical properties. Likewise, these materials have been widely used in various areas of science such as catalysis,adsorption processes, photocatalysis and electrochemistry; The use of these materials in wastewater treatmentprocesses will be addressed due to their excellent behavior in the removal of contaminants.

Bibliographic References

  • -[1] Ptaszkowska-koniarz M., Goscianska, J. y pietzrak R. Colloids Surf., A: Physicochemical and engineering aspects (2018),543, 109-117
  • -[2] Pereira, M. F. R., Serp, P. £ Figueiredo, J. L. Catal. Today (2012), 186, 29-34.
  • -[3] Mobini, S., Meshkani, F. € Rezaei, M. Chem. Eng. Sci. (2019), 197, 37-51.
  • -[4] Kumari, M. £ Saroha, A. K. J. Environ. Chem. Eng. (019), 7 (3), 103121.
  • -[5] Rocha, R.P., Restivo, J., Sousa J.P.S.órfáo, M. F. R. Pereira, $ J. L. Figueiredo. Catal. Today (2015), 241, 73-79.
  • -[6] Álvarez, M. A., Orellana-García, F., López- Ramón, M. V., Rivera-Utrilla, J. 8£ Sánchez-Polo, M. Arabian J. Chem. (2018), 11, 564-572.
  • -[7] Acosta-Rangel, A., Sánchez-Polo, M., Polo, A. M. S., Rivera-Utrilla, J. £ Berber-Mendoza, M. S. Chem. Eng. J. (2018), 344, 21-33.
  • -[8] Sun, B.,Yuan, Y., Li, H.,Li, X.,Zhang, C.,Guo F.,Liu, X.,Wang, K.,Zhao, X.S. Chem. Eng. J. (2019), 371, 55-63.
  • -[9] Wang, X. C. Jiang, B. Hou, Y. Wang, C. Hao, and J. Wu. Chemosphere (2018), 206, 587-596. Racho, P. £ Phalathip, P. Energy Procedia (2017), 118, 195-200.
  • -[10] Álvarez, S., Ribeiro, R. S., Gomes, H. T., Sotelo,J. L. 8 García, J. Chemical Engineering Research and Design (2015), 95, 229-238.
  • -[11] Zhou, G., Tian, H., Sun, H., Wang, S. € Buckley, C. E. Chem. Eng. J. (2011), 171, 1399-1405.
  • -[12 Wong, S., Ngadi, N., Inuwa, L M. % Hassan, O. J. Cleaner Prod. (2018), 175, 361-375.
  • -[13 Orge, C. A., órfáo, J. J. M. 82 Pereira, M. F. R. 4 Appl. Catal., B. (2012), 126, 22-28.
  • -[14] Ribeiro, Rui S.,Frontistis,Z..Mantzavinos, D., Venieri, Danae, A., Maria,K., loannis,S., Adrián M.T.,Faria, J. L..Gomes, H., T. Appl. Catal., B. (2016), 199, 170-186.
  • Carrasco-Díaz, M. R., Castillejos-López, E., Cerpa-Naranjo, A. 8 Rojas-Cervantes, M. L. Microporous Mesoporous Mater. (2017), 237, 282-293.
  • -[17] Tasseroul, L., Pirard, S., Lambert, S., Páez, C., Poelman, D. Pirard, J.-P.8 Heinrichs, B. Chem. Eng. J. (2012), 191,441-450.
  • -[18] Huang, G., Li, W. £ Song, Y. J Sol-Gel Sci Technol (2018), 86: 175-186.
  • -[19] Job, N., Théry, A., Pirard, R., Marien, J., Kocon, L., Jean-NoéLR., Frangois,B., Jean-Paul, P. Carbon (2005), 43, 2481-2494.
  • -[20] Orellana-García, F. ÁlvarezM. A., López-Ramón,M. V., Rivera-Utrilla J., Sánchez-Polo M., £ M. Á. Fontecha-Cámara Appl. Catal., B. (2016), 181, 94-102.
  • -[21] Figueiredo, J. L. 8 Pereira, M. F. R.. J. Energy Chem. (2013), 22, 195-201.
  • -[22] Brinker, C. J. 8% Scherer, G. W. Sol-gel science : the physics and chemistry of sol-gel processing. (Academic Press, 1990).
  • -[23] Salazar-Rábago, J. J. Sánchez-Polo, M., Rivera- Utrilla, J., Leyva-Ramos, R., Ocampo-Pérez, R., $2 Carrasco-Marin, F. Chem. Eng. J. (2016), 306, 289-297.
  • -[24] Ribeiro, R. S., Silva, A. M. T., Figueiredo, J. L., Faria, J. L. 8 Gomes, H. T. Catal. Today (2017), 296, 66-75.
  • -[25] Fathy, N. A., El-Khouly, S. M., Hassan, N. A. 8 Awad, R. M.S. J. Water Process Eng. (2017), 16, 21-27.
  • -[26] Rashwan, W. E., Fathy, N. A. £ Elkhouly, S. M. J. Taiwan Inst. Chem. Eng. (2018), 88, 234-242.
  • -[27] Lu,C., Huang,Y . H., Hong, J. S., Wu, Y. J., Li, J., $ Cheng, J. P. J. Colloid Interface Sci. (2018), 524, 209218.
  • -[28] Carrasco-Díaz, M. R., Castillejos-López, E., Cerpa-Naranjo, A. 8 Rojas-Cervantes, M. L. Microporous Mesoporous Mater. (2017), 237, 282-293.
  • -[29] Sun, H., Tian, H., Hardjono, Y., Buckley, C. E. 82 Wang, S. Catal. Today (2012), 186, 63-68.
  • -[30] Bailón-García, E. Elmouwahidi, A., Álvarez, M. A., Carrasco-Marín, F., Pérez-Cadenas, A. F., $ Maldonado-Hódar, F. J. Appl. Catal., B. (2017), 201, 29-40.
  • -[31] Jin, H., Li, J., Chen, F., Gao, L., Zhang, H., Liu, D., Liu, Q. Electrochim. Acta (2016), 222, 438- 445.
  • -[32] Pérez-Cadenas, A. F., Ros, C. H., Morales-Torres, S., Pérez-Cadenas, M., Kooyman, P. J., Moreno- Castilla, C., € Kapteijn, F. Carbon (2013), 56, 324-331.
  • -[33] Morales-Torres, S., Maldonado-Hódar, F. J., Pérez-Cadenas, A. F. 8 Carrasco-Marín, F. M Microporous Mesoporous Mater. (2012), 153, 24— 29.
  • -[34] Osiñska, M., Krawczyk, P., Rozmanowski, T. $ Gurzeda, B. Appl. Surf. Sci. (2019), 481, 545-553.
  • -[35] Ray M.B., Chen J.P., Wang L.K., £ PehkonenS.O. (2006) Advanced Oxidation Processes. In: Wang L.K., Hung YT., Shammas N.K. (eds) Advanced Physicochemical Treatment Processes.Handbook of Environmental Engineering, vol 4.Humana Press
  • -[36] Delgado, N., Navarro, A., Capparelli, A., Peñuela, G. £ Marino, D. TECNOLOGÍASALTERNATIVAS PARA LA REMOCIÓN DE CONTAMINANTES EMERGENTES EN AGUAS RESIDUALES.
  • -[37] Glaze, W. H., Kang, J.-W. 8 Chapin, D. H. Ozone Sci. Eng. (1987), 9, 335-352.
  • -[38] A. Quintanilla, C.M. Domínguez, J.A. Zazo, J. A. Casas, J. J. R. Bol. Grupo Español Carbón
  • -[39] Herrmann, J. M. J. Photochem. Photobiol., A (2010), 216, 85-93.
  • -[40] López-Ayala, S., Rincón, M. E., Quiroz Alfaro, M. A., Bandala, E. R., Méndez Rojas, M. A., 8 Castaño, V. J. Photochem. Photobiol., A (015), 311, 166-175.
  • -[41] de Moraes, N. P., Bacetto, L., dos Santos, G.,Pinto da Silva, M., Machado J., Campos, T. M. B.,Thim, G. P. R., Liana A. Ceram. Int. (2019), 45, 3657-3667.
  • -[42] López-Ramón, M. V., Rivera-Utrilla, J., Sánchez- Polo, M., Polo, A.M.S., Mota, Antonio J.,Orellana-García, F., Álvarez, M.A.Sci. Total Environ. (2019), 650, 1207-1215.
  • -[43] de Moraes, N. P., da Silva, M. L. C. P. € Rodrigues, L. A. Mater. Lett. (2018), 228, 486- 489.
Data source: Dialnet