JUAN ARTURO MENDOZA NIETO



DATOS GENERALES
Nombre completo   JUAN ARTURO MENDOZA NIETO
Máximo nivel de estudios   DOCTORADO
Antigüedad académica en la UNAM   15 años
NOMBRAMIENTOS
Vigente   PROFESOR DE CARRERA TITULAR A TC Definitivo
Facultad de Química
Desde 01-07-2024
PROFESOR DE CARRERA ASOCIADO C TC No Definitivo
Facultad de Química
Desde 01-03-2019 hasta 30-06-2024
PROFESOR DE CARRERA ASOCIADO C TC No Definitivo
Dirección General de Asuntos del Personal Académico
Desde 01-05-2018 hasta 28-02-2019
PROFESOR ASIGNATURA A TP No Definitivo
Facultad de Química
Desde 01-02-2018 hasta 30-04-2018
PROFESOR ASIGNATURA A TP No Definitivo
Facultad de Química
Desde 16-08-2010 hasta 31-01-2018
POSDOCTOR TC No Definitivo
Instituto de Investigaciones en Materiales
Desde 01-04-2015 hasta 31-03-2017
PROFESOR ASIGNATURA A TP No Definitivo
Facultad de Química
Desde 01-10-2011 hasta 15-01-2015
AYUDANTE PROFESOR B TP No Definitivo
Facultad de Química
Desde 16-03-2009 hasta 31-01-2010
ESTIMULOS, PROGRAMAS, PREMIOS Y RECONOCIMIENTOS
* SNI I2017 - VIGENTE
* PRIDE C2023 - 2024
* EQUIVALENCIA PRIDE B2018 - 2023

INFORMACIÓN DE PUBLICACIONES
Firmas  
Arturo Mendoza-Nieto J. Arturo Mendoza-Nieto, J. Mendoza-Nieto A. Mendoza-Nieto J.A. Mendoza-Nieto, J. Arturo Mendoza-Nieto, J.A.
MendozaNieto, JA Mendoza-Nieto, JA
ID's SCOPUS  
55144173900
ORCID's  
0000-0003-2200-8583
Áreas de conocimiento  
Chemistry, applied Chemistry, multidisciplinary Electrochemistry Engineering, chemical Engineering, environmental
Mineralogy Nanoscience and nanotechnology Thermodynamics Condensed matter physics Chemical engineering (miscellaneous)
Chemistry (miscellaneous) Electrical and electronic engineering Energy engineering and power technology Environmental science (miscellaneous) Fluid flow and transfer processes
Geology Industrial and manufacturing engineering Instrumentation Materials Science (miscellaneous) Physical and Theoretical Chemistry
Process chemistry and technology
Coautorías con entidades de la UNAM  
  • Instituto de Física
  • Instituto de Química
  • Instituto de Investigaciones en Materiales
  • Facultad de Química
  • Facultad de Estudios Superiores "Cuautitlán"
  • Dirección General de Asuntos del Personal Académico
Revistas en las que ha publicado  (19):
  1. APPLIED CATALYSIS B-ENVIRONMENTAL, Países Bajos (2018)
  2. APPLIED CLAY SCIENCE, Países Bajos (2020)
  3. Applied Nanoscience, Arabia Saudi (2022)
  4. CATALYSIS TODAY, Países Bajos (2014, 2015, 2019)
  5. CHEMICAL ENGINEERING JOURNAL, Suiza (2017, 2020)
  6. CHEMICAL ENGINEERING SCIENCE, Estados Unidos America (2023)
  7. CHEMISTRY LETTERS, Japón (2016)
  8. Fuel, Reino Unido (2012, 2013)
  9. FUEL PROCESSING TECHNOLOGY, Países Bajos (2020)
  10. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, Estados Unidos America (2017)
  11. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, Reino Unido (2019)
  12. JOURNAL OF CATALYSIS, Estados Unidos America (2013, 2015)
  13. JOURNAL OF CO2 UTILIZATION, Países Bajos (2018, 2022)
  14. JOURNAL OF ENERGY CHEMISTRY, China (2017)
  15. Materials Research Society Symposium Proceedings, Estados Unidos America (2012, 2013)
  16. REACTION CHEMISTRY & ENGINEERING, Reino Unido (2021)
  17. RSC ADVANCES, Reino Unido (2016)
  18. THERMOCHIMICA ACTA, Países Bajos (2018)
  19. TOPICS IN CATALYSIS, Estados Unidos America (2019)


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Documentos indexados (WoS y Scopus)

# Título del documento Autores Año Revista Fuente Citas WoS Citas Scopus
1Li2ZrO3 modified with molten salts as potential materials for CO elimination: Effect of carbonate type and oxygen additionCoautor y autor de correspondencia: Arturo Mendoza-Nieto J., Soto-Pacheco S.A., Pfeiffer H.2023CHEMICAL ENGINEERING SCIENCEWoS-id: 001011722900001
Scopus-id: 2-s2.0-85160069527
22
2A new kinetic model for CO2 capture on sodium zirconate (Na2ZrO3): An analysis under different flow rates1ᵉʳ autor: Mendoza-Nieto J.A., Martinez-Hernandez, Hector, Pfeiffer, Heriberto, Gómez-García J.F.2022JOURNAL OF CO2 UTILIZATIONWoS-id: 000754854900002
Scopus-id: 2-s2.0-85121262756
1414
3Investigation of H2 production via an integrated pathway of consecutive CO oxidation and dry methane reforming in the presence of Co3O4@HNTs catalystCoautor: Mendoza-Nieto J.A., Daza-Gómez L.-C., Ruiz-Ruiz V.-F., Pfeiffer H., et al.2022Applied NanoscienceWoS-id: 000811948500001
Scopus-id: 2-s2.0-85132357398
23
4New approach to consecutive CO oxidation and CO2 chemisorption using Li2CuO2 ceramics modified with Na- and K-molten saltsCoautor y autor de correspondencia: Mendoza-Nieto, J. Arturo, Hernandez-Castillo, Susana, Martinez-Hernandez, Hector2021REACTION CHEMISTRY & ENGINEERINGWoS-id: 000654444100001
Scopus-id: 2-s2.0-85111778780
55
5First insights for hydrogen production using an alkaline ceramic through the water-gas shift reactionCoautor: Arturo Mendoza-Nieto, J., Hernandez-Rivas, Omar, Martinez, Ana, Pfeiffer, Heriberto2020CHEMICAL ENGINEERING JOURNALWoS-id: 000525862500098
Scopus-id: 2-s2.0-85076490728
1111
6New evidences in CO oxidation and selective chemisorption of carbon oxides on different alkaline ferrite crystal phases (NaFeO2 and LiFeO2)2ᵒ autor: Mendoza-Nieto J.A., Gómez-García J.F., Yañez-Aulestia A., Plascencia-Hernandez, Fernando, et al.2020FUEL PROCESSING TECHNOLOGYWoS-id: 000528034800010
Scopus-id: 2-s2.0-85081387759
1718
7Co3O4 nanostructures and Co3O4 supported on halloysite nanotubes: New highly active and thermally stable feasible catalysts for CO oxidationCoautor: Mendoza-Nieto J.A., Daza-Gómez L.-C., Ruiz-Ruiz V.-F., Pfeiffer, Heriberto, et al.2020APPLIED CLAY SCIENCEWoS-id: 000529362000028
Scopus-id: 2-s2.0-85082667172
2122
8Development of novel nano-hydroxyapatite doped with silver as effective catalysts for carbon monoxide oxidation2ᵒ autor: Mendoza-Nieto J.A., Martinez-Hernandez, Hector, Pfeiffer, Heriberto, Ortiz-Landeros, Jose, et al.2020CHEMICAL ENGINEERING JOURNALWoS-id: 000569901400005
Scopus-id: 2-s2.0-85087214631
2123
9Pentalithium Ferrite (Li 5 FeO 4 ) as Highly Active Material for Hydrogen Production in the Chemical Looping Partial Oxidation of Methane2ᵒ autor: Mendoza-Nieto J.A., Hernandez-Fontes, Carlos, Lara-Garcia, Hugo A., Pfeiffer, Heriberto2019TOPICS IN CATALYSISWoS-id: 000488930800008
Scopus-id: 2-s2.0-85065977723
88
10COx-free hydrogen production from ammonia on novel cobalt catalysts supported on 1D titanate nanotubes2ᵒ autor: Mendoza-Nieto J.A., Lara-Garcia, Hugo A., Pfeiffer, Heriberto, Torrente-Murciano, Laura2019INTERNATIONAL JOURNAL OF HYDROGEN ENERGYWoS-id: 000498752900022
Scopus-id: 2-s2.0-85074341296
4747
11Trimetallic NiMoW and CoMoW catalysts supported on SBA-15 modified with titania or zirconia for deep hydrodesulfurization1ᵉʳ autor: Mendoza-Nieto J.A., Vizueth-Montes de Oca A., Calzada L.A., Klimova T.E.2019CATALYSIS TODAYWoS-id: 000595354600011
Scopus-id: 2-s2.0-85067253827
1718
12CO2 chemisorption enhancement produced by K2CO3- and Na2CO3-addition on Li2CuO22ᵒ autor: Mendoza-Nieto J.A., Ham-Liu I., Pfeiffer H.2018JOURNAL OF CO2 UTILIZATIONWoS-id: 000424948700013
Scopus-id: 2-s2.0-85036476083
2828
13Nickel-doped sodium zirconate catalysts for carbon dioxide storage and hydrogen production through dry methane reforming process1ᵉʳ autor: Mendoza-Nieto J.A., Tehuacanero-Cuapa S., Arenas-Alatorre J., Pfeiffer H.2018APPLIED CATALYSIS B-ENVIRONMENTALWoS-id: 000424960700010
Scopus-id: 2-s2.0-85032722993
3838
14Thermocatalytic analysis of CO2-CO selective chemisorption mechanism on lithium cuprate (Li2CuO2) and oxygen addition effectCoautor: Mendoza-Nieto J.A., Yañez-Aulestia A., Gómez-García J.F., Duan Y., et al.2018THERMOCHIMICA ACTAWoS-id: 000426226200017
Scopus-id: 2-s2.0-85047502616
2427
15Alkaline zirconates as effective materials for hydrogen production through consecutive carbon dioxide capture and conversion in methane dry reforming1ᵉʳ autor: Mendoza-Nieto J.A., Duan Y., Pfeiffer H.2018APPLIED CATALYSIS B-ENVIRONMENTALWoS-id: 000443666000059
Scopus-id: 2-s2.0-85050627056
3637
16Nickel-doped sodium zirconate catalysts for carbon dioxide storage and hydrogen production through dry methane reforming process1ᵉʳ autor: Arturo Mendoza-Nieto, J., Tehuacanero-Cuapa, Samuel, Arenas-Alatorre, Jesus, Pfeiffer, Heriberto2018APPLIED CATALYSIS B-ENVIRONMENTALWoS-id: 000424960700010
Scopus-id: 2-s2.0-85032748681
26104
17Ce0.8Sm0.15Sr0.05O2 as Possible Oxidation Catalyst and Assessment of the CaO Addition in the Coupled CO Oxidation-CO2 Capture Process2ᵒ autor: Arturo Mendoza-Nieto, J., Ovalle-Encinia, Oscar, Ortiz-Landeros, Jose, Pfeiffer, Heriberto2017INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCHWoS-id: 000402690800003
Scopus-id: 2-s2.0-85020923625
66
18Bifunctional application of lithium ferrites (Li5FeO4 and LiFeO2) during carbon monoxide (CO) oxidation and chemisorption processes. A catalytic, thermogravimetric and theoretical analysisCoautor: Arturo Mendoza-Nieto, J., Lara-Garcia, Hugo A., Vera, Elizabeth, Francisco Gomez-Garcia, J., et al.2017CHEMICAL ENGINEERING JOURNALWoS-id: 000408663800082
Scopus-id: 2-s2.0-85047459661
3739
19NiO-CaO materials as promising catalysts for hydrogen production through carbon dioxide capture and subsequent dry methane reforming2ᵒ autor: Mendoza-Nieto, J.A., Cruz-Hernández, A., Pfeiffer, H.2017JOURNAL OF ENERGY CHEMISTRYWoS-id: 000415598900014
Scopus-id: 2-s2.0-85023622697
3839
20Methane Reforming Process by means of a Carbonated Na2ZrO3 Catalyst1ᵉʳ autor: Arturo Mendoza-Nieto, J., Vera, Elizabeth, Pfeiffer, Heriberto2016CHEMISTRY LETTERSWoS-id: 000377152900035
Scopus-id: 2-s2.0-84973926597
1514
21Thermogravimetric study of sequential carbonation and decarbonation processes over Na2ZrO3 at low temperatures (30-80 °c): Relative humidity effect1ᵉʳ autor: Mendoza-Nieto, J. Arturo, Pfeiffer, Heriberto2016RSC ADVANCESWoS-id: 000380353600025
Scopus-id: 2-s2.0-84979503605
1615
22Support effect on the catalytic performance of trimetallic NiMoW catalysts prepared with citric acid in HDS of dibenzothiophenes1ᵉʳ autor: MendozaNieto, JA, RoblesMendez, F, Klimova, TE2015CATALYSIS TODAYWoS-id: 000353786100007
Scopus-id: 2-s2.0-84929061294
4952
23Influence of Na content on behavior of NiMo catalysts supported on titania nanotubes in hydrodesulfurization2ᵒ autor: Mendoza-Nieto J.A., Ortega-Domínguez R.A., Hernández-Hipólito P., Garrido-Sánchez F., et al.2015JOURNAL OF CATALYSISWoS-id: 000361250800044
Scopus-id: 2-s2.0-84936970673
3033
24Effect of the amount of citric acid used in the preparation of NiMo/SBA-15 catalysts on their performance in HDS of dibenzothiophene-type compounds2ᵒ autor: Mendoza-Nieto, JA, Calderon-Magdaleno, MA, Klimova, TE2014CATALYSIS TODAYWoS-id: 000328497600011
Scopus-id: 2-s2.0-84889667743
8594
25Development of new trimetallic NiMoW catalysts supported on SBA-15 for deep hydrodesulfurization1ᵉʳ autor: Mendoza-Nieto J.A., Vera-Vallejo O., Escobar-Alarcón L., Solís-Casados D.A., et al.2013FuelWoS-id: 000320652000034
Scopus-id: 2-s2.0-84879051680
8991
26Behavior of NiMo/SBA-15 catalysts prepared with citric acid in simultaneous hydrodesulfurization of dibenzothiophene and 4,6-dimethyldibenzothiopheneCoautor: Mendoza-Nieto, JA, Klimova, TE, Valencia, D, Hernandez-Hipolito, P2013JOURNAL OF CATALYSISWoS-id: 000321152600004
Scopus-id: 2-s2.0-84878936254
132140
27Nanostructured SBA-15 materials as appropriate supports for active hydrodesulfurization catalysts prepared from HSiW heteropolyacid1ᵉʳ autor: Mendoza-Nieto J.A., Tejeda-Espinosa K.D., Puente-Lee I., Salcedo-Luna C., et al.2013Materials Research Society Symposium ProceedingsScopus-id: 2-s2.0-84878089912
01
28Effect of titania grafting on behavior of NiMo hydrodesulfurization catalysts supported on different types of silica1ᵉʳ autor: Mendoza-Nieto, JA, Puente-Lee, I, Salcedo-Luna, C, Klimova, T2012FuelWoS-id: 000307824400013
Scopus-id: 2-s2.0-84865000370
2223
29Effect of titania grafting on behavior of NiMo HDS catalysts supported on nanostructured silica materials1ᵉʳ autor: Mendoza-Nieto A., Puente-Lee I., Salcedo-Luna C., Klimova T.2012Materials Research Society Symposium ProceedingsScopus-id: 2-s2.0-84861143249
01
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Capítulos de libros (Humanindex)