NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries

An energy transition based on the valorization of abundant renewable resources is needed to reduce the high consumption of fossil fuels and their negative impact in the environment in agreement with the SDG of the United Nations. To achieve this goal, robust energy storage systems need to be develop...

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Autores:
Díaz Escobar, Cristian Camilo
Tipo de recurso:
Doctoral thesis
Fecha de publicación:
2025
Institución:
Universidad de Antioquia
Repositorio:
Repositorio UdeA
Idioma:
eng
OAI Identifier:
oai:bibliotecadigital.udea.edu.co:10495/47149
Acceso en línea:
https://hdl.handle.net/10495/47149
Palabra clave:
Electroquímica
Electrochemistry
Electrocatálisis
Electrocatalysts
Catálisis
Catalysis
Baterías Metal Aire
Carbón mesoporoso
Batería recargable de Zn-aire (rZAB)
Reacciones de reducción y evolución del oxígeno
ODS 7: Energía asequible y no contaminante. Garantizar el acceso a una energía asequible, fiable, sostenible y moderna para todos
ODS 13: Acción por el Clima. Adoptar medidas urgentes para combatir el cambio climático y sus efectos
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openAccess
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http://creativecommons.org/licenses/by-nc-sa/4.0/
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network_name_str Repositorio UdeA
repository_id_str
dc.title.eng.fl_str_mv NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
dc.title.translated.none.fl_str_mv Nanopartículas de NiCo2O4 soportadas sobre carbono mesoporoso : un electrocatalizador bifuncional para baterías recargables de Zn-aire y Zn-aire-flujo
title NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
spellingShingle NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
Electroquímica
Electrochemistry
Electrocatálisis
Electrocatalysts
Catálisis
Catalysis
Baterías Metal Aire
Carbón mesoporoso
Batería recargable de Zn-aire (rZAB)
Reacciones de reducción y evolución del oxígeno
ODS 7: Energía asequible y no contaminante. Garantizar el acceso a una energía asequible, fiable, sostenible y moderna para todos
ODS 13: Acción por el Clima. Adoptar medidas urgentes para combatir el cambio climático y sus efectos
title_short NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
title_full NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
title_fullStr NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
title_full_unstemmed NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
title_sort NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteries
dc.creator.fl_str_mv Díaz Escobar, Cristian Camilo
dc.contributor.advisor.none.fl_str_mv Palacio Olarte, Rubén Alberto
López Osorio, Betty Lucy
Sierra García, Ligía
dc.contributor.author.none.fl_str_mv Díaz Escobar, Cristian Camilo
dc.contributor.researchgroup.none.fl_str_mv Ciencia de los Materiales
dc.contributor.jury.none.fl_str_mv Suarez García Fabian
Zapata Benabithe, Zulamita
Calderón Guitérrez, Jorge
dc.subject.lem.none.fl_str_mv Electroquímica
Electrochemistry
Electrocatálisis
Electrocatalysts
Catálisis
Catalysis
topic Electroquímica
Electrochemistry
Electrocatálisis
Electrocatalysts
Catálisis
Catalysis
Baterías Metal Aire
Carbón mesoporoso
Batería recargable de Zn-aire (rZAB)
Reacciones de reducción y evolución del oxígeno
ODS 7: Energía asequible y no contaminante. Garantizar el acceso a una energía asequible, fiable, sostenible y moderna para todos
ODS 13: Acción por el Clima. Adoptar medidas urgentes para combatir el cambio climático y sus efectos
dc.subject.proposal.spa.fl_str_mv Baterías Metal Aire
Carbón mesoporoso
Batería recargable de Zn-aire (rZAB)
Reacciones de reducción y evolución del oxígeno
dc.subject.ods.none.fl_str_mv ODS 7: Energía asequible y no contaminante. Garantizar el acceso a una energía asequible, fiable, sostenible y moderna para todos
ODS 13: Acción por el Clima. Adoptar medidas urgentes para combatir el cambio climático y sus efectos
description An energy transition based on the valorization of abundant renewable resources is needed to reduce the high consumption of fossil fuels and their negative impact in the environment in agreement with the SDG of the United Nations. To achieve this goal, robust energy storage systems need to be developed. Among them, rechargeable Zn-air batteries (rZnAB) are of great interest due to their high energy density (9653 Wh L-1) and the possibility of using aqueous electrolytes. The operation of the cathode relies on two oxygen reactions: i) oxygen reduction reaction (ORR) during the discharge, ii) oxygen evolution reaction (OER) during the charge. Both reactions exhibit slow kinetics. For instance, it is necessary to obtain a bifunctional electrocatalyst with high conductivity, selective to avoid side reactions such as H2O2 production, and stable to increase the battery lifetime. This thesis focused on the development of a bifunctional electrocatalyst based on spinel-like NiCo2O4 nanoparticles dispersed on a porous carbonaceous support with high surface area and pore volume. For this purpose, the textural properties of the carbonaceous support (MC), the deposition method of the metal precursors (hydrothermal (HT) and incipient wetness impregnation (I)) and the type of atmosphere (N2, Air and 20% O2/80% N2) used during thermal treatment at different temperatures (300°C and 700 °C) have been evaluated in order to control the localization, particle size, surface chemistry and acidic properties of NiCo2O4. Using the HT methodology, and calcination at 300 oC under 20% O2/80% N2, NiCo2O4 nanoparticles of ∼9 nm located inside the mesopores of the MC support were obtained, the material exhibited high specific surface area and pore volume, with a surface enriched in uncoordinated Ni2+ and Co2+ species, and high density of Lewis acid sites. The NiCo2O4/MC-HTs demonstrated efficient bifunctional activity in ORR/OER with ΔE of 1.03 V and they were evaluated in a rZAB, powering a 2 mW laser for 17 h, and in a zinc-air flow battery (ZAFB), it successfully powered 39 red LED bulbs displaying the INRS logo for over 100 h. In conclusion, this PhD thesis contributes to the understanding of the impact of textural properties, synthesis conditions, and surface chemistry of NiCo2O4-based materials to obtain bifunctional electrocatalytic activity in the cathode of rZABs; and in this way advancing the scientific knowledge of metal-air batteries as energy storage devices.
publishDate 2025
dc.date.accessioned.none.fl_str_mv 2025-08-21T20:23:32Z
dc.date.issued.none.fl_str_mv 2025
dc.type.none.fl_str_mv Trabajo de grado - Doctorado
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dc.identifier.uri.none.fl_str_mv https://hdl.handle.net/10495/47149
url https://hdl.handle.net/10495/47149
dc.language.iso.none.fl_str_mv eng
language eng
dc.relation.references.none.fl_str_mv [1] P. A. O’connor, Energy Transitions. 2010. [Online]. Available: www.bu.edu/pardee
[2] R. C. Allen, “Energy Transitions in History: Global Cases of,” Contin Chang, no. 2, pp. 11–16, 2013, doi: 10.2307/26240489.
[3] N. Kittner, F. Lill, and D. M. Kammen, “Energy storage deployment and innovation for the clean energy transition,” Nat Energy, vol. 2, no. 9, Aug. 2017, doi: 10.1038/nenergy.2017.125.
[4] A. B. Gallo, J. R. Simões-Moreira, H. K. M. Costa, M. M. Santos, and E. Moutinho dos Santos, “Energy storage in the energy transition context: A technology review,” Nov. 01, 2016, Elsevier Ltd. doi: 10.1016/j.rser.2016.07.028.
[5] A. B. Gallo, J. R. Simões-Moreira, H. K. M. Costa, M. M. Santos, and E. Moutinho dos Santos, “Energy storage in the energy transition context: A technology review,” Nov. 01, 2016, Elsevier Ltd. doi: 10.1016/j.rser.2016.07.028.
[6] N. Zhao and F. You, “Can renewable generation, energy storage and energy efficient technologies enable carbon neutral energy transition?,” Appl Energy, vol. 279, Dec. 2020, doi: 10.1016/j.apenergy.2020.115889.
[7] J. Tian, L. Yu, R. Xue, S. Zhuang, and Y. Shan, “Global low-carbon energy transition in the post-COVID-19 era,” Appl Energy, vol. 307, Feb. 2022, doi: 10.1016/j.apenergy.2021.118205.
[8] D. Bogdanov et al., “Low-cost renewable electricity as the key driver of the global energy transition towards sustainability,” Energy, vol. 227, Jul. 2021, doi: 10.1016/j.energy.2021.120467.
[9] A. Kalair, N. Abas, M. S. Saleem, A. R. Kalair, and N. Khan, “Role of energy storage systems in energy transition from fossil fuels to renewables,” Energy Storage, vol. 3, no. 1, Feb. 2021, doi: 10.1002/est2.135.
[10] Z. W. She, J. Kibsgaard, C. F. Dickens, I. Chorkendorff, J. K. Nørskov, and T. F. Jaramillo, “Combining theory and experiment in electrocatalysis: Insights into materials design,” Jan. 13, 2017, American Association for the Advancement of Science. doi: 10.1126/science.aad4998.
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dc.format.extent.none.fl_str_mv 143 páginas
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dc.publisher.none.fl_str_mv Universidad de Antioquia
dc.publisher.program.none.fl_str_mv Doctorado en Ciencias Químicas
dc.publisher.place.none.fl_str_mv Medellín, Colombia
dc.publisher.faculty.none.fl_str_mv Facultad de Ciencias Exactas y Naturales
dc.publisher.branch.none.fl_str_mv Campus Medellín - Ciudad Universitaria
publisher.none.fl_str_mv Universidad de Antioquia
institution Universidad de Antioquia
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spelling Palacio Olarte, Rubén AlbertoLópez Osorio, Betty LucySierra García, LigíaDíaz Escobar, Cristian CamiloCiencia de los MaterialesSuarez García FabianZapata Benabithe, ZulamitaCalderón Guitérrez, Jorge2025-08-21T20:23:32Z2025https://hdl.handle.net/10495/47149An energy transition based on the valorization of abundant renewable resources is needed to reduce the high consumption of fossil fuels and their negative impact in the environment in agreement with the SDG of the United Nations. To achieve this goal, robust energy storage systems need to be developed. Among them, rechargeable Zn-air batteries (rZnAB) are of great interest due to their high energy density (9653 Wh L-1) and the possibility of using aqueous electrolytes. The operation of the cathode relies on two oxygen reactions: i) oxygen reduction reaction (ORR) during the discharge, ii) oxygen evolution reaction (OER) during the charge. Both reactions exhibit slow kinetics. For instance, it is necessary to obtain a bifunctional electrocatalyst with high conductivity, selective to avoid side reactions such as H2O2 production, and stable to increase the battery lifetime. This thesis focused on the development of a bifunctional electrocatalyst based on spinel-like NiCo2O4 nanoparticles dispersed on a porous carbonaceous support with high surface area and pore volume. For this purpose, the textural properties of the carbonaceous support (MC), the deposition method of the metal precursors (hydrothermal (HT) and incipient wetness impregnation (I)) and the type of atmosphere (N2, Air and 20% O2/80% N2) used during thermal treatment at different temperatures (300°C and 700 °C) have been evaluated in order to control the localization, particle size, surface chemistry and acidic properties of NiCo2O4. Using the HT methodology, and calcination at 300 oC under 20% O2/80% N2, NiCo2O4 nanoparticles of ∼9 nm located inside the mesopores of the MC support were obtained, the material exhibited high specific surface area and pore volume, with a surface enriched in uncoordinated Ni2+ and Co2+ species, and high density of Lewis acid sites. The NiCo2O4/MC-HTs demonstrated efficient bifunctional activity in ORR/OER with ΔE of 1.03 V and they were evaluated in a rZAB, powering a 2 mW laser for 17 h, and in a zinc-air flow battery (ZAFB), it successfully powered 39 red LED bulbs displaying the INRS logo for over 100 h. In conclusion, this PhD thesis contributes to the understanding of the impact of textural properties, synthesis conditions, and surface chemistry of NiCo2O4-based materials to obtain bifunctional electrocatalytic activity in the cathode of rZABs; and in this way advancing the scientific knowledge of metal-air batteries as energy storage devices.Acknowledgements…………………………………………………………………………... v Abstract ……………………………………………………………………………………………vi Research products …………………………………………………………………………………xi Chapter 1: Literature review……………………………………………………………………….3 1.1 Background………………………………………………………………………………3 1.2 Rechargeable Zn-air batteries (rZABs) fundamentals……………………………………7 1.3 Fundamentals of ORR and OER reactions………………………………………………17 1.3.1 OER and ORR reaction pathways………………………………………………….18 1.4 Bifunctional electrocatalysts……………………………………………………………21 1.4.1 Metal-free carbon bifunctional electrocatalysts……………………………………21 1.4.2 Metal oxides as bifunctional electrocatalysts………………………………………30 1.4.3 Metal oxides supported on carbon materials as bifunctional electrocatalysts. …….39 Chapter 2: Research hypothesis and objectives …………………………………………………..45 2.1 Hypothesis………………………………………………………………………...…….45 2.2 Objectives ………………………………………………………………………………45 2.2.1 General objective…………………………………………………………………..45 2.2.2 Specific objectives…………………………………………………………………45 Chapter 3: Methodology………………………………………………………………………….46 3.1 Materials………………………………………………………………………………..46 3.2 Synthesis of carbonaceous support and electrocatalyst…………………………………46 3.2.1 Synthesis of mesoporous carbonaceous (MC) support…………………………….46 3.3 Catalysts preparation.……………………………………………………………….…..47 3.3.1 Evaluation of temperature and atmosphere during thermal treatment…………….47 3.3.2 Evaluation of deposition method of nickel and cobalt on MC support ……………48 3.3.3 Evaluation of the composition and textural properties of the carbonaceous support ……………………………………………………………………………………..49 3.4 Physicochemical characterization ………………………………………………………51 3.5 Electrochemical performance evaluation 53 3.5.1 Electrocatalytic evaluation: ………………………………………………………..53 3.6 Electrocatalytic evaluation in Zn-air batteries 56 3.6.1 Rechargeable Zn-air battery (rZAB) performance evaluation: ……………………56 3.6.2 Rechargeable Zn-air flow battery (ZAFB) performance evaluation: ……………...56 Chapter 4: Results of physicochemical characterization and electrochemical evaluation in ORR and OER reactions……………………………………………………………………………….58 4.1 Effect of temperature and atmosphere during the thermal transformation of the metal precursors into their oxides dispersed on mesoporous carbonaceous support …..58 4.1.1 Physicochemical properties characterization ………………………………………58 4.1.2 Electrochemical characterization and activity for ORR and OER reactions ………67 4.1.3 Partial conclusions …………………………………………………………………75 4.2 NiCo2O4 nanoparticles on mesoporous carbon: Study on the impact of the deposition method on physicochemical and electrochemical properties 76 4.2.1 Physicochemical properties characterization………………………………………77 4.2.2 Electrochemical performance evaluation in ORR and OER. ……………………...85 4.2.3 Partial conclusions …………………………………………………………………91 4.3 NiCo2O4 nanoparticles dispersed on ordered mesoporous carbon: study on the impact of pore structure and textural characteristics on physicochemical and electrochemical properties 92 4.3.1 Physicochemical properties characterization ………………………………………92 4.3.2 Electrocatalytic performance evaluation in ORR and OER ……………………….97 4.3.3 Partial conclusions………………………………………………………………..100 4.4 Conclusions ……………………………………………………………………………101 Chapter 5: Performance evaluation results of electrocatalysts in rechargeable Zn-air battery (rZAB) and Zn-air flow battery (ZAFB) ………………………………………………………..102 5.1 Electrocatalytic performance of NiCo2O4 spinel phase nanoparticles dispersed on mesoporous carbon in the cathode of Zn-air batteries………………………………………..102 5.1.1 Postmortem characterization ……………………………………………………..108 5.1.2 Partial conclusions………………………………………………………………..109 5.1.3 Proof-of-concept application……………………………………………………..110 5.2 Conclusions……………………………………………………………………………111 Chapter 6: General conclusions…………………………………………………………………113 Perspectives……………………………………………………………………………………..115 Appendix: Ni-Co embedded on reticular chitosan derived N-doped Carbon…………………..116 7.1 Experimental section…………………………………………………………………116 7.1.1 Synthesis of N-doped carbon (NC) ………………………………………………116 7.1.2 Synthesis of Ni-Co embedded on reticular chitosan derived N-doped carbon (NC) materials ……………………………………………………………………………………116 7.2 Physicochemical properties characterization 117 7.3 Electrochemical performance evaluation 118 7.4 Conclusions 121 Reference ………………………………………………………………………………………..123EnergíaCOL0002401DoctoradoDoctor en Ciencias Químicas143 páginasapplication/pdfengUniversidad de AntioquiaDoctorado en Ciencias QuímicasMedellín, ColombiaFacultad de Ciencias Exactas y NaturalesCampus Medellín - Ciudad Universitariahttp://creativecommons.org/licenses/by-nc-sa/4.0/info:eu-repo/semantics/openAccessAttribution-NonCommercial-ShareAlike 4.0 Internationalhttp://purl.org/coar/access_right/c_abf2NiCo2O4 nanoparticles supported on mesoporous carbon : a bifunctional electrocatalyst for rechargeable Zn-air and Zn-air flow batteriesNanopartículas de NiCo2O4 soportadas sobre carbono mesoporoso : un electrocatalizador bifuncional para baterías recargables de Zn-aire y Zn-aire-flujoTrabajo de grado - Doctoradohttp://purl.org/coar/resource_type/c_db06http://purl.org/redcol/resource_type/TDTexthttp://purl.org/coar/version/c_b1a7d7d4d402bcceinfo:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/draft[1] P. A. O’connor, Energy Transitions. 2010. [Online]. Available: www.bu.edu/pardee[2] R. C. Allen, “Energy Transitions in History: Global Cases of,” Contin Chang, no. 2, pp. 11–16, 2013, doi: 10.2307/26240489.[3] N. Kittner, F. Lill, and D. M. Kammen, “Energy storage deployment and innovation for the clean energy transition,” Nat Energy, vol. 2, no. 9, Aug. 2017, doi: 10.1038/nenergy.2017.125.[4] A. B. Gallo, J. R. Simões-Moreira, H. K. M. Costa, M. M. Santos, and E. Moutinho dos Santos, “Energy storage in the energy transition context: A technology review,” Nov. 01, 2016, Elsevier Ltd. doi: 10.1016/j.rser.2016.07.028.[5] A. B. Gallo, J. R. Simões-Moreira, H. K. M. Costa, M. M. Santos, and E. Moutinho dos Santos, “Energy storage in the energy transition context: A technology review,” Nov. 01, 2016, Elsevier Ltd. doi: 10.1016/j.rser.2016.07.028.[6] N. Zhao and F. You, “Can renewable generation, energy storage and energy efficient technologies enable carbon neutral energy transition?,” Appl Energy, vol. 279, Dec. 2020, doi: 10.1016/j.apenergy.2020.115889.[7] J. Tian, L. Yu, R. Xue, S. Zhuang, and Y. Shan, “Global low-carbon energy transition in the post-COVID-19 era,” Appl Energy, vol. 307, Feb. 2022, doi: 10.1016/j.apenergy.2021.118205.[8] D. Bogdanov et al., “Low-cost renewable electricity as the key driver of the global energy transition towards sustainability,” Energy, vol. 227, Jul. 2021, doi: 10.1016/j.energy.2021.120467.[9] A. Kalair, N. Abas, M. S. Saleem, A. R. Kalair, and N. Khan, “Role of energy storage systems in energy transition from fossil fuels to renewables,” Energy Storage, vol. 3, no. 1, Feb. 2021, doi: 10.1002/est2.135.[10] Z. W. She, J. Kibsgaard, C. F. Dickens, I. Chorkendorff, J. K. Nørskov, and T. F. Jaramillo, “Combining theory and experiment in electrocatalysis: Insights into materials design,” Jan. 13, 2017, American Association for the Advancement of Science. doi: 10.1126/science.aad4998.ElectroquímicaElectrochemistryElectrocatálisisElectrocatalystsCatálisisCatalysisBaterías Metal AireCarbón mesoporosoBatería recargable de Zn-aire (rZAB)Reacciones de reducción y evolución del oxígenoODS 7: Energía asequible y no contaminante. Garantizar el acceso a una energía asequible, fiable, sostenible y moderna para todosODS 13: Acción por el Clima. 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