Article
26. Zirconium-organic framework as a novel adsorbent for arsenate remediation from aqueous solutions, Roxana Paz, Herlys Viltres, Nishesh Kumar Gupta, Kaptan Rajput, Debesh R. Roy, Adolfo Romero-Galarza, Mark C. Biesinger, Carolina Leyva, Journal of Molecular Liquids, 2022, 118957.
25. Functional metal-organic frameworks for metal removal from aqueous solutions, Herlys Viltres, Yeisy C. López, Nishesh Kumar Gupta, Carolina Leyva, Roxana Paz, Anjali Gupta, Arijit Sengupta, Separation & Purification Reviews, 51(1), 2022, 78–99.
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24. Application of hybrid MOF composite in extraction of f-block elements: Experimental and computational investigation, Gauri Salunkhe, Arijit Sengupta, Anil Boda, Roxana Paz, Nishesh Kumar Gupta, Carolina Leyva, Rohit Singh Chauhan, Sk Musharaf Ali, Chemosphere, 287(3), 2022, 132232.
23. Fabrication of magnetic cerium-organic framework-activated carbon composite for charged dye removal from aqueous solutions, Roxana Paz, Herlys Viltres, Nishesh Kumar Gupta, Carolina Leyva, Journal of Molecular Liquids, 337, 2021, 116578.
22. Polyamidoamine dendrimer-based materials for environmental applications: A review, Herlys Viltres, Yeisy C. López, Carolina Leyva, Nishesh Kumar Gupta, Adrián Ges Naranjo, Próspero Acevedo–Peña, Alejandro Sanchez-Diaz, Jiyeol Bae, Kwang Soo Kim, Journal of Molecular Liquids, 334, 2021, 116017.
21. Transition metal-based metal–organic frameworks for environmental applications: a review, Yeisy C. López, Herlys Viltres, Nishesh Kumar Gupta, Próspero Acevedo-Peña, Carolina Leyva, Yasaman Ghaffari, Anjali Gupta, Suho Kim, Jiyeol Bae, Kwang Soo Kim, Environmental Chemistry Letters,19, 2021, 1295–1334.
20. Hydrodesulfurization of dibenzothiophene using NiMoWS catalysts supported on Al–Mg and Ti–Mg mixed oxides, Pablo Jahir Peña-Obeso, Rafael Huirache-Acuña, Manuel Arroyo-Albiter, Santiago José Guevara-Martínez, Carolina Leyva and Maritza E. Cervantes-Gaxiola, International Journal of Chemical Reactor Engineering, 18(7), 2020, 20190216.
19. Effect of silicon content on active catalytic phase for hydrocracking of heavy crude oils, Carolina Leyva, Fernando Trejo-Zárraga, Petroleum Science and Technology, 38(2), 2020, 91–97.
18. An approach for determination of asphaltene crystallite by X-ray diffraction analysis: A case of study, H. Díaz-Sánchez, J. B. Rojas-Trigos, C. Leyva, F. Trejo-Zárraga, Petroleum Science and Technology, 35(13), 2017, 1415–1420.
17. Hydrothermal synthesis of unsupported MoS2 as catalyst for hydrodesulfurization of gas oil, J. D. Cuesta, C. Leyva, L. Lartundo, F. Trejo, Petroleum Science and Technology, 34(20), 2016, 1720–1725.
16. Hydrotreating of oil fractions, Jorge Ancheyta, Anton Alvarez-Majmutov, Carolina Leyva, Chapter 13 in Multiphase Catalytic Reactors: Theory, Design, Manufacturing, and Applications (Editors: Zeynep Ilsen Önsan, Ahmet Kerim Avci).
15. Vacuum Gas Oil Hydrocracking on NiMo/USY Zeolite Catalysts. Experimental Study and Kinetic Modeling, Tao Zhang, Carolina Leyva, Gilbert F. Froment, Jorge Martinis, Industrial & Engineering Chemistry Research, 54(3), 2015, 858–868.
14. Exploratory Study for the Upgrading of Transport Properties of Heavy Oil by Slurry-Phase Hydrocracking, Alexander Quitian, Carolina Leyva, Sergio Ramírez, Jorge Ancheyta, Energy & Fuels, 29(1), 2015, 9–15.
13. Effect of alumina and silica–alumina supported NiMo catalysts on the properties of asphaltenes during hydroprocessing of heavy petroleum, Carolina Leyva, Jorge Ancheyta, Guillermo Centeno, Fuel, 138, 2014, 111–117.
12. International Symposium on Advances in Hydroprocessing of Oil Fractions (ISAHOF 2013), Jorge Ancheyta, Carolina Leyva, Gilbert F. Froment, Catalysis Today, 220–222, 2014, 1–3.
11. Characterization study of NiMo/SiO2-Al2O3 spent hydroprocessing catalysts for heavy oils, C. Leyva, J. Ancheyta, L. Mariey, A. Travert, F. Maugé, Catalysis Today, 220–222, 2014, 89–96.
10. A review of experimental procedures for heavy oil hydrocracking with dispersed catalyst, M. J. Angeles, C. Leyva, J. Ancheyta, S. Ramírez, Catalysis Today, 220–222, 2014, 274–294.
9. International-Mexican Congress on Chemical Reaction Engineering (IMCCRE 2012), Jorge Ancheyta, Carolina Leyva, Gilbert F. Froment, Fuel, 110, 2013, 1–3.
8. Chemical characterization of asphaltenes from various crude oils, Carolina Leyva, Jorge Ancheyta, César Berrueco, Marcos Millán, Fuel Processing Technology, 106, 2013, 734–738.
7. Activity and surface properties of NiMo/SiO2–Al2O3 catalysts for hydroprocessing of heavy oils, Carolina Leyva, Jorge Ancheyta, Arnaud Travert, Françoise Maugé, Laurence Mariey, Jorge Ramírez, Mohan S. Rana, Applied Catalysis A: General, 425–426, 2012, 1–12.
6. On the importance of calculating fresh-basis catalyst composition from spent catalyst analysis, Sergio Ramirez, Carolina Leyva, Jorge Ancheyta, Guillermo Centeno, Fuel, 88(11), 2009, 2311–2314.
5. NiMo supported acidic catalysts for heavy oil hydroprocessing, Carolina Leyva, Mohan S. Rana, Fernando Trejo, and Jorge Ancheyta, Catalysis Today, 141(1–2), 2009, 168–175.
4. Surface characterization of Al2O3–SiO2 supported NiMo catalysts: An effect of support composition, Carolina Leyva, Mohan S. Rana, Jorge Ancheyta, Catalysis Today, 130(2–4), 2008, 345–353.
3. On the Use of Acid-Base-Supported Catalysts for Hydroprocessing of Heavy Petroleum, Carolina Leyva, Mohan S. Rana, Fernando Trejo, and Jorge Ancheyta, Industrial & Engineering Chemistry Research, 46(23), 2007, 7448–7466.
2. A comparative study on the effect of promoter content of hydrodesulfurization catalysts at different evaluation scales, Carolina Leyva, Jorge Ancheyta, Mohan S. Rana, Gustavo Marroquín, Fuel, 86(9), 2007, 1232–1239.
1. Effect of catalyst preparation and support composition on hydrodesulfurization of dibenzothiophene and Maya crude oil, Mohan S. Rana, Elsa M. R. Capitaine, Carolina Leyva, Jorge Ancheyta, Fuel, 86(9), 2007, 1254–1262.
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Intellectual property
2. Patent application with examination of approved form
C. Leyva, E. Reguera, H. Cobas, O. Odio, Patent application filed under the name: Removal of Arsenic from drinking water by iron nanoparticles, Presented to the Mexican Institute of Industrial Property (IMPI). MX/a/2016/092900. Titular: Instituto Politécnico Nacional
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1. Patent application with examination of approved form
C. Leyva, M.A. Martínez-Hernández, E. Reguera, O. Odio, Patent application filed under the name: Membrana compuesta para remoción de flúor del agua y sus proceso de obtención. Presented to the Mexican Institute of Industrial Property (IMPI). MX/a/2018/014344
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Book
1. Tópicos de contaminantes y contaminación del agua, Zenaida Carolina Leyva Inzunza, José Carlos Mendoza Hernández, Amado Enrique Navarro Frómeta. Editoria AM, Ciudad de México, ISBN 978-607-437-507-7 (AM), 2019.
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Book chapter
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4. Zenaida Carolina Leyva Inzunza, José Carlos Mendoza Hernández, Amado Enrique Navarro Frómeta. Introducción. La contaminación del agua y su tratamiento en México. Tópicos sobre contaminantes y contaminación del agua. Editorial AM, PP. 15-30, México, ISBN 978-607-437-507-7 (AM), 2019.
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3. Oscar F. Odio Chacón, Carolina Leyva Inzunza, Herlys Viltres Cobas. Capítulo 1.6. Cuantificación y especiación de arsénico en agua por métodos ópticos basados en nanopartículas con propiedades plasmónicas y fluorescentes. Tópicos de contaminantes y contaminación del agua, Zenaida Carolina Leyva Inzunza, José Carlos Mendoza Hernández, Amado Enrique Navarro Frómeta. Editorial AM, Ciudad de México, ISBN 978-607-437-507-7 (AM), 2019.
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2. Carolina Leyva, Oscar Odio Miguel, Angel Martínez Hernández. Capítulo 2.4. Contaminantes inorgánicos del agua: nanotecnologías para su remoción. Tópicos de contaminantes y contaminación del agua, Zenaida Carolina Leyva Inzunza, José Carlos Mendoza Hernández, Amado Enrique Navarro Frómeta. Editorial AM, Ciudad de México, ISBN 978-607-437-507-7 (AM), 2019.
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1. Carolina Leyva, Herlys Viltres, Yeisy Lopez, Alejandro Rodriguez. Capítulo 11. Tecnologías alternativas para el tratamiento del agua en centros urbanosTecnologías para la gestión sostenible del agua, Amado Enrique Navarro Frómeta, Raúl Delgado Macuil. orial AM, Ciudad de México, ISBN 78-607-437-578-7, 2021.
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