Academic Work

• ORCID
• Google scholar
• ResearchGate
• Scopus

Sites of interest

• LinkedIn
• Personal Web Site
• Academic record on campus

Sustainable Development Goals

Research interests

• Electrochemical Energy Storage
• Fuel Cells
• Hydrogen as energetic vector
• Circular economy for batteries and energy storage systems
• Energy and clean water access

Profile

Professor Guadalupe Ramos Sanchez holds a degree in Chemical Engineering from the Universidad Autónoma Metropolitana (UAM) in Mexico City and a Ph.D. in Chemical Sciences from the Centro de Investigación y de Estudios Avanzados from the Instituto Politécnico Nacional (IPN).

She completed a postdoctoral stay at Texas A&M University, and is currently a Conacyt professor assigned to the UAM Iztapalapa Campus, where she studies and develops materials for electrochemical systems and the formation of battery and fuel cell prototypes. She is also the vice-president of the Mexican Hydrogen Society.

Her research areas are the development of materials and additives for high voltage Li-Ion (Na) batteries, and the development of techniques for the analysis of the processes by in-situ means. She has achieved a score of more than 50 scientific publications, an h-index of 15, and the publication of several book chapters and an educational book.

Information provided by the academic staff

Research interests

• Electrochemical Energy Storage
• Fuel Cells
• Hydrogen as energetic vector
• Circular economy for batteries and energy storage systems
• Energy and clean water access

Academic Work

On the following pages you can consult the research work:

• Google scholar

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• ResearchGate

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• Scopus

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• ORCID

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Other sites of interest

Consult the research work on other websites:

• LinkedIn

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• Personal website

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• Academic record on campus

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Some examples of publications

Select the bibliographic reference to consult each publication:

Open Access	References	UN SDGs
	Mirón-Velázquez, R., Maldonado-Textle, H., Jiménez-Regalado, E.J. and 3 more (...) (2026).Insights into Structure-Properties Relationship of Cationic Copolymers with Quaternary Ammonium Moieties via RAFT Polymerization as Potential Binders for Lithium–Sulfur Batteries. Macromolecular Rapid Communications,47(5)	\| 7 \|
	Mayrén, A., Alcaraz-Espinoza, J.J., Hernández-Sánchez, A. and 2 more (...) (2026).Chitosan-Organic Acids Functionalized as an Effective Sustainable and Scalable Binder for Lithium Sulfur Batteries. Energy Storage,8(1)	\| 7 \|
	Rojas-Castillo, G.J., Mendoza-Figueroa, J.S., Esparza-Schulz, J.M. and 2 more (...) (2026).Valorization of marine sargassum biomass through in situ spectroscopic analysis for potential sodium-ion battery anode applications. Biomass and Bioenergy,212	\| 7 \|
	Rojas-Chávez, H., de León-Zapata, R.D., Miralrio, A. and 5 more (...) (2026).Ethylene glycol-engineered LiFePO4: performance insights from experiment and theory. Applied Surface Science,724	\| 7 \|
	Martínez-Cruz, M.A., Martínez, A.D.J., Ochoa-Calle, A. and 5 more (...) (2025).The influence of Mn-ion doping on electrochemical properties of Li2Cu(1-2x) MnxO2 (x = 0–0.1). Journal of Electroanalytical Chemistry,984	\| 7 \|
	Rojas-Chávez, H., Valdés-Madrigal, M.A., Bautista-Elivar, N. and 4 more (...) (2025).Exploring the morphology of LiFePO4 modified by ethylene glycol: An integrated computational-experimental study. Surfaces and Interfaces,61
OA	Olmedo-González, J., Guzmán-González, G., Manzo-Robledo, A. and 6 more (...) (2024).In-situ Polymerized Single Lithium-ion Conducting Binder as an Integrated Strategy for High Voltage LNMO Electrodes. Batteries and Supercaps,7(3)	\| 7 \|
	Sierra-Uribe, J.H., Alcaraz-Espinoza, J.J., Martínez-Cruz, M.Á. and 4 more (...) (2024).Impact of ball milling on the energy storage properties of LiFePO4 cathodes for lithium-ion batteries. Journal of Solid State Electrochemistry,28(9) 3481-3489	\| 7 \|
OA	García-Carrillo, B.A., Martínez, A.J., Jiménez-Cabañas, E.L. and 3 more (...) (2024).A Review of Mexican Contributions to Li2CuO2 and its Chemical Modifications as Cathode Materials for Lithium-Ion Batteries. Journal of the Mexican Chemical Society,68(4) 852-865	\| 7 \|
	Mayrén, A., Alcaraz-Espinoza, J.J., Hernández-Sánchez, A. and 2 more (...) (2024).Chitosan binders for sustainable lithium-sulfur batteries: Synergistic effects of mechanical and polysulfide trapping properties. Electrochimica Acta,480	\| 7 \|
OA	Warren-Vega, W.M., Zárate-Guzmán, A.I., Carrasco-Marín, F. and 2 more (...) (2024).Predicting Sodium-Ion Battery Performance through Surface Chemistry Analysis and Textural Properties of Functionalized Hard Carbons Using AI. Materials,17(17)	\| 7 \|
	Segura-Bailón, B., Lapidus, G.T., Ramos-Sánchez, G. (2024).A comparative study of discharging and leaching of spent lithium-ion battery recycling. Minerals Engineering,218	\| 7 \| 9 \| 12 \|
	Suarez-Hernandez, R., Ramos-Sánchez, G., González, I. (2023).Hierarchical implementation of electrochemical techniques to provide a reliable diagnosis of commercial lithium-ion pouch cells under selected operational conditions. Journal of Energy Storage,73	\| 7 \|
	Martínez-Cruz, M.A., Ramos-Sánchez, G., Oliver-Tolentino, M. and 2 more (...) (2022).Improving the structural reversibility of LiNiO2 by incorporation of Cu, an electrochemical and in-situ XRD study. Journal of Alloys and Compounds,923	\| 7 \|
OA	Ramos-Sánchez, G., González-Huerta, R.D.G. (2022).Special issue for the XXI International Meeting of the Mexican Hydrogen Society. International Journal of Hydrogen Energy,47(70)
	Ramos-Sánchez, G., Huerta, R.G.G. (2022).H2-INDEX FOR THE EVALUATION OF HYDROGEN PROJECTS IN MEXICO. Proceedings of WHEC 2022 - 23rd World Hydrogen Energy Conference: Bridging Continents by H2,1263-1265
OA	Olmedo-González, J., Ramos-Sánchez, G., Garduño-Ruiz, E.P. and 1 more (...) (2022).Analysis of Stand-Alone Photovoltaic—Marine Current Hybrid System and the Influence on Daily and Seasonal Energy Storage. Energies,15(2)	\| 7 \|
	Sierra-Uribe, J.H., Islas-Vargas, C., Guevara-García, A. and 4 more (...) (2021).Effects of Intra-Structural Interactions of Indium Hexacyanoferrate on the Li+and K+Intercalation Potential. Journal of the Electrochemical Society,168(10)	\| 7 \|
OA	Ojeda-López, R., Ramos-Sánchez, G., García-Mendoza, C. and 3 more (...) (2021).Effect of calcination temperature and chemical composition of pan-derived carbon microfibers on n2, co2, and ch4 adsorption. Materials,14(14)
	Alcaraz-Espinoza, J.J., Ramos-Sánchez, G., Sierra-Uribe, J.H. and 1 more (...) (2021).Supramolecular Assembly of Nanostructured Conducting Polymer Hydrogels by Hydrotropic Agents for Outstanding Supercapacitive Energy Storage. ACS Applied Energy Materials,4(9) 9099-9110
	Canto-Aguilar, E.J., Oliver-Tolentino, M.A., Ramos-Sánchez, G. and 1 more (...) (2021).Effect of the external metal on the electrochemical behavior of M3[Co(CN)6]2 (M: Co, Ni, Cu, Zn), towards their use as anodes in potassium ion batteries. Electrochimica Acta,371
	Suarez-Hernandez, R., Ramos-Sánchez, G., Oliver-Tolentino, M.A. and 1 more (...) (2021).Degradation mechanisms of layered materials (LiCoO2 and Li2CuO2) captured by an EIS-based graphical reconstruction method. Electrochimica Acta,397	\| 7 \|
	Ramos-Sánchez, G., González-Huerta, R.D.G. (2021).Special issue for the XIX & XX international meetings of the Mexican Hydrogen Society. International Journal of Hydrogen Energy,46(51)
	Juarez-Yescas, C., Oliver-Tolentino, M., Ramos-Sánchez, G. and 6 more (...) (2020).The Intriguing Nature of Fluorine Doping on Li2CuO2 and the Reasons behind the Inhibition of Oxygen Evolution. ACS Applied Energy Materials,3(3) 2771-2780	\| 7 \|
	Martínez-Cruz, M.A., Yañez-Aulestia, A., Ramos-Sánchez, G. and 5 more (...) (2020).Unraveling the effects on lithium-ion cathode performance by cation doping M-Li2CuO2 solid solution samples (M = Mn, Fe and Ni). Dalton Transactions,49(14) 4549-4558	\| 7 \|
	Suarez-Hernandez, R., Ramos-Sánchez, G., Santos-Mendoza, I.O. and 2 more (...) (2020).A Graphical Approach for Identifying the Limiting Processes in Lithium-Ion Battery Cathode Using Electrochemical Impedance Spectroscopy. Journal of the Electrochemical Society,167(10)	\| 7 \|
OA	Tapia, C., Oliver-Tolentino, M.Á., González, I. and 1 more (...) (2020).PREMIO NOBEL DE QUÍMICA 2019: BATERÍAS ION-LI Nobel Prize in Chemistry 2019: Ion-Li batteries. Educacion Quimica,31(1) 12-22	\| 7 \|

Courses taught by the professor in recent trimesters

*Courses are conducted in spanish

Num.	Trim.	Course Name	Level
1	26I	Investigación Doctoral II	Posgrado
2	26I	Investigación Doctoral III	Posgrado
3	26I	Proyecto Terminal II Nuevos Materiales	Licenciatura
4	26I	Seminario de Investigación III	Posgrado
5	26I	Termodinámica	Posgrado
6	26I	Termodinámica I (Ingeniería)	Licenciatura
7	26I	Trabajo de Investigación IV	Posgrado
8	26I	Investigación Doctoral I	Posgrado
9	25O	Laboratorio de Termodinámica	Licenciatura
10	25O	Trabajo de Investigación III	Posgrado
11	25O	Seminario de Investigación III	Posgrado
12	25O	Proyecto Terminal III Nuevos Materiales	Licenciatura
13	25O	Proyecto Terminal III Nuevos Materiales	Licenciatura
14	25O	Proyecto Terminal III Ingeniería Ambiental	Licenciatura
15	25O	Proyecto Terminal I Nuevos Materiales	Licenciatura
16	25O	Investigación Doctoral II	Posgrado
17	25O	Investigación Doctoral I	Posgrado
18	25O	Introducción a la Investigación III	Posgrado
19	25P	Investigación Doctoral I	Posgrado
20	25P	Trabajo de Investigación II	Posgrado
21	25P	Termodinámica II (Ingeniería)	Licenciatura
22	25P	Seminario de Investigación III	Posgrado
23	25P	Proyecto Terminal II Nuevos Materiales	Licenciatura
24	25P	Proyecto Terminal II Nuevos Materiales	Licenciatura
25	25P	Proyecto Terminal II Ingeniería Ambiental	Licenciatura
26	25I	Balances de Materia y Energía I	Licenciatura
27	25I	Proyecto Terminal I Ingeniería Ambiental	Licenciatura
28	25I	Proyecto Terminal I Nuevos Materiales	Licenciatura
29	25I	Proyecto Terminal II Nuevos Materiales	Licenciatura
30	25I	Trabajo de Investigación I	Posgrado
31	24O	Introducción a la Investigación II	Posgrado
32	24O	Seminario de Investigación III	Posgrado
33	24O	Temas Selectos en Ingeniería Química II	Posgrado
34	24O	Termodinámica I (Ingeniería)	Licenciatura
35	24O	Termodinámica II (Ingeniería)	Licenciatura
36	24P	Proyecto Terminal III Nuevos Materiales	Licenciatura
37	24P	Termodinámica I (Ingeniería)	Licenciatura
38	24P	Proyecto Terminal III Nuevos Materiales	Licenciatura
39	24P	Seminario de Investigación III	Posgrado
40	24I	Proyecto de Investigación III	Posgrado
41	24I	Proyecto de Investigación III	Posgrado
42	24I	Proyecto de Investigación III	Posgrado
43	24I	Proyecto Terminal II Nuevos Materiales	Licenciatura
44	24I	Proyecto Terminal II Nuevos Materiales	Licenciatura
45	24I	Temas Selectos en Ingeniería Química I	Posgrado
46	24I	Temas Selectos en Ingeniería Química II	Posgrado
47	24I	Termodinámica II (Ingeniería)	Licenciatura
48	23O	Proyecto Terminal I Nuevos Materiales	Licenciatura
49	23O	Termodinámica I (Ingeniería)	Licenciatura
50	23O	Proyecto Terminal I Nuevos Materiales	Licenciatura
51	23O	Proyecto de Investigación II	Posgrado
52	23O	Proyecto de Investigación II	Posgrado
53	23O	Cursos Complementarios	Licenciatura
54	23O	Caracterización Fisicoquímica de Catalizadores	Posgrado
55	23O	Proyecto de Investigación II	Posgrado
56	23P	Proyecto Terminal III Industrias de Transformación	Licenciatura
57	23P	Temas Selectos en Ingeniería Química II	Posgrado
58	23P	Temas Selectos de Ingeniería Química IV	Posgrado
59	23P	Proyecto de Investigación I	Posgrado
60	23P	Proyecto de Investigación I	Posgrado

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