From a5f2c83db0f6ff9be72538cad0943f14a198c5d7 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Mario=20Guillermo=20Ponce=20Hern=C3=A1ndez?= Date: Wed, 11 Mar 2026 12:58:42 -0600 Subject: [PATCH] changing files and adding new ones --- Documento/Hydrogen_Project.bib | 174 ++++++++++++++------------------- Documento/Ponce_Mario.docx | Bin 2559824 -> 2559822 bytes Documento/main.md | 2 +- Documento/~$nce_Mario.docx | Bin 162 -> 0 bytes 4 files changed, 77 insertions(+), 99 deletions(-) delete mode 100644 Documento/~$nce_Mario.docx diff --git a/Documento/Hydrogen_Project.bib b/Documento/Hydrogen_Project.bib index 2ff9434..56564ba 100644 --- a/Documento/Hydrogen_Project.bib +++ b/Documento/Hydrogen_Project.bib @@ -1,5 +1,5 @@ -@inproceedings{ref1, +@inproceedings{lopez-garcia_water_2017, address = {Ixtapa}, title = {Water electrolysis experimental characterization and numerical model: {Case} of study with three kind of electrodes}, isbn = {978-1-5386-0819-7}, @@ -15,10 +15,9 @@ month = nov, year = {2017}, pages = {1--4}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\I5DJPC3X\\Lopez-Garcia et al. - 2017 - Water electrolysis experimental characterization and numerical model Case of study with three kind.pdf:application/pdf}, } -@article{ref3, +@article{arpajou_optimizacion_2022, title = {Optimización basada en modelos de sistemas de electrólisis alcalina para la producción de hidrógeno}, issn = {2683-8818}, url = {https://rtyc.utn.edu.ar/index.php/ajea/article/view/1042}, @@ -31,45 +30,44 @@ author = {Arpajou, María Candelaria and Mussati, Miguel and Oliva, Diego}, month = oct, year = {2022}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\AGS68NTJ\\Arpajou et al. - 2022 - Optimización basada en modelos de sistemas de electrólisis alcalina para la producción de hidrógeno.pdf:application/pdf}, } -@phdthesis{ref4, +@phdthesis{padilla_produccion_2021, address = {San Salvador}, + type = {{PhD} {Thesis}}, title = {{PRODUCCIÓN} {DE} {HIDRÓGENO} {POR} {ELECTRÓLISIS} {DE} {AGUA} {UTILIZANDO} {ENERGÍA} {SOLAR} {Y} {EVALUACIÓN} {DE} {SU} {USO} {COMO} {COMBUSTIBLE} {FUENTE} {DE} {ENERGÍA} {TÉRMICA}}, language = {es}, school = {Universidad del Salvador}, author = {Padilla, Chicas and Abner, Julio and Cruz, Guzmán and Manuel, William}, month = mar, year = {2021}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\RR4UR64K\\Padilla et al. - PRODUCCIÓN DE HIDRÓGENO POR ELECTRÓLISIS DE AGUA UTILIZANDO ENERGÍA SOLAR Y EVALUACIÓN DE SU USO COM.pdf:application/pdf}, } -@phdthesis{ref5, +@phdthesis{vasquez_evaluacion_2024, address = {Villavicencio}, + type = {{PhD} {Thesis}}, title = {{EVALUACIÓN} {DE} {LA} {EFICIENCIA} {DE} {PRODUCCIÓN} {DE} {HIDRÓGENO} {VERDE} {MEDIANTE} {ELECTRÓLISIS} {DEL} {AGUA} {CON} {ELECTRODOS} {DE} {BAJO} {COSTO}}, language = {es}, school = {Universitat Santo Tomas}, author = {Vásquez, Ariadna Martínez}, year = {2024}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\SE4AQ2IH\\Vásquez - 2024 - EVALUACIÓN DE LA EFICIENCIA DE PRODUCCIÓN DE HIDRÓGENO VERDE MEDIANTE ELECTRÓLISIS DEL AGUA CON ELEC.pdf:application/pdf}, } @misc{noauthor_notitle_nodate, } -@phdthesis{ref2, +@phdthesis{hernandez_evaluacion_2024, address = {Mineral de la Reforma, Hidalgo}, + type = {{PhD} {Thesis}}, title = {Evaluación de una aleación de {Ni}-{Fe}-{Cr}-{Mo} como electrolizador para la producción de hidrógeno mediante electrólisis del agua}, language = {Español}, school = {Universidad Autonoma del Estado de Hidalgo}, author = {Hernández, Gamaliel}, month = jan, year = {2024}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\N7KJCLHZ\\Hernández - 2024 - Evaluación de una aleación de Ni-Fe-Cr-Mo como electrolizador para la producción de hidrógeno median.pdf:application/pdf}, } -@inproceedings{ref6, +@inproceedings{pv_experimental_2015, address = {Mumbai, India}, title = {Experimental {Investigation} using an {On}-{Board} {Dry} {Cell} {Electrolyzer} in a {CI} {Engine} working on {Dual} {Fuel} {Mode}}, volume = {90}, @@ -79,64 +77,58 @@ month = dec, year = {2015}, pages = {8}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\A7BP6MU6\\P.V et al. - 2015 - Experimental Investigation using an On-Board Dry Cell Electrolyzer in a CI Engine working on Dual Fu.pdf:application/pdf}, } -@article{ref7, +@article{roeder_impact_2024, title = {Impact of expected cost reduction and lifetime extension of electrolysis stacks on hydrogen production costs}, doi = {10.1016/j.ijhydene.2024.08.015}, - publisher = {International Journal of Hydrogen Energy}, author = {Roeder, Timo and Rosenstiel, Andreas and Monnerie, Nathalie and Sattler, Christian}, month = aug, year = {2024}, + note = {Publisher: International Journal of Hydrogen Energy}, pages = {10}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\TWTQGR8B\\Roeder et al. - 2024 - Impact of expected cost reduction and lifetime extension of electrolysis stacks on hydrogen producti.pdf:application/pdf}, } -@article{ref9, - address = {Santander, España.}, +@article{norman_steam_2024, title = {Steam electrolysis for green hydrogen generation. {State} of the art and research perspective.}, volume = {202}, doi = {10.1016/j.rser.2024.114725}, number = {1364-0321}, journal = {Renewable and Sustainable Energy Reviews}, - publisher = {Elsevier Ltd.}, author = {Norman, E.A. and Maestre, V.M. and Ortiz, A. and Ortiz, I.}, month = jul, year = {2024}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\N5BFJM2E\\Norman et al. - 2024 - Steam electrolysis for green hydrogen generation. State of the art and research perspective..pdf:application/pdf}, + note = {Place: Santander, España. +Publisher: Elsevier Ltd.}, } -@article{ref11, - address = {India}, +@article{shirasangi_current-voltage_2024, title = {Current-{Voltage} (i-{V}) characteristics of electrolyte-supported ({NiO}-{YSZ}/{NiO}-{SDC}/{ScSZ}/{LSCF}-{GDC}/{LSCF}) solid oxide electrolysis cell during {CO2}/{H2O} co-electrolysis}, volume = {9}, doi = {10.1016/j.chphi.2024.100670}, number = {100670}, journal = {Chemical Physics Impact}, - publisher = {Elsevier B.V.}, - author = {Shirasangi, Rahulkumar and Lakhanlal and Prasad Dasari, Hari and Saidutta, M.B.}, + author = {Shirasangi, Rahulkumar and {Lakhanlal} and Prasad Dasari, Hari and Saidutta, M.B.}, month = jun, year = {2024}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\T2HVAG75\\Shirasangi et al. - 2024 - Current-Voltage (i-V) characteristics of electrolyte-supported (NiO-YSZNiO-SDCScSZLSCF-GDCLSCF).pdf:application/pdf}, + note = {Place: India +Publisher: Elsevier B.V.}, } -@article{ref12, - address = {Norway}, +@article{berg_lundby_novel_2021, title = {A novel hybrid analysis and modeling approach applied to aluminum electrolysis process}, volume = {105}, doi = {10.1016/j.jprocont.2021.06.005}, number = {62-77}, journal = {Journal of Process Control}, - publisher = {Elsevier Ltd.}, author = {Berg Lundby, Erlend Torje and Rasheed, Adil and Gravdahl, Jan Tommy and Halvorsen, Ivar Johan}, month = jun, year = {2021}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\XLMYIRWQ\\Berg Lundby et al. - 2021 - A novel hybrid analysis and modeling approach applied to aluminum electrolysis process.pdf:application/pdf}, + note = {Place: Norway +Publisher: Elsevier Ltd.}, } -@article{ref13, - address = {Saudi, Arabia}, +@article{rashid_hydrogen_2015, title = {Hydrogen {Production} by {Water} {Electrolysis}: {A} {Review} of {Alkaline} {Water} {Electrolysis}, {PEM} {Water} {Electrolysis} and {High} {Temperature} {Water} {Electrolysis}}, volume = {4}, issn = {2249-8958}, @@ -144,14 +136,14 @@ language = {en}, number = {3}, journal = {International Journal of Engineering and Advanced Technology (IJEAT)}, - publisher = {Blue Eyes Intelligence Engineering \& Sciences Publication}, author = {Rashid, Mamoon and Mesfer, Mohammed K Al and Naseem, Hamid and Danish, Mohd}, month = feb, year = {2015}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\56W4CYS8\\Rashid et al. - 2015 - Hydrogen Production by Water Electrolysis A Review of Alkaline Water Electrolysis, PEM Water Electr.pdf:application/pdf}, + note = {Place: Saudi, Arabia +Publisher: Blue Eyes Intelligence Engineering \& Sciences Publication}, } -@book{ref14, +@book{morante_hidrogeno_nodate, address = {Madrid}, edition = {2}, title = {Hidrógeno {Vector} energético de una economía descarbonizada}, @@ -159,25 +151,23 @@ url = {www.fundacionnaturgy.org}, publisher = {Fundación Naturgy}, author = {Morante, Juan Ramón. and Andreu, Teresa and García, Gotzon and Guilera, Jordi and Taracón, Albert and Torrel, Marc}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\XMLRWSQD\\Morante et al. - Hidrógeno Vector energético de una economía descarbonizada.pdf:application/pdf}, } -@phdthesis{ref15, +@phdthesis{bausa_martinez_electrolizadores_2020, address = {Valencia (Spain)}, + type = {{PhD} {Thesis}}, title = {Electrolizadores de alta temperatura basados en cerámicas protónicas.}, url = {https://riunet.upv.es/handle/10251/147114}, - doi = {10.4995/Thesis/10251/147114}, language = {es}, urldate = {2026-01-29}, school = {Universitat Politècnica de València}, author = {Bausá Martínez, Nuria}, month = may, year = {2020}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\5IZNJNGT\\Bausá Martínez - 2020 - Electrolizadores de alta temperatura basados en cerámicas protónicas..pdf:application/pdf}, + doi = {10.4995/Thesis/10251/147114}, } -@article{ref20, - address = {Netherlands}, +@article{amireh_impact_2023, title = {Impact of power supply fluctuation and part load operation on the efficiency of alkaline water electrolysis}, volume = {560}, issn = {03787753}, @@ -187,16 +177,15 @@ language = {en}, urldate = {2026-01-29}, journal = {Journal of Power Sources}, - publisher = {Elsevier B.V.}, author = {Amireh, Senan F. and Heineman, Niels N. and Vermeulen, Paul and Barros, Rodrigo Lira Garcia and Yang, Dongsheng and Van Der Schaaf, John and De Groot, Matheus T.}, month = mar, year = {2023}, + note = {Place: Netherlands +Publisher: Elsevier B.V.}, pages = {232629}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\GFTHNLNK\\Amireh et al. - 2023 - Impact of power supply fluctuation and part load operation on the efficiency of alkaline water elect.pdf:application/pdf}, } -@article{ref21, - address = {Netherlands}, +@article{de_groot_alkaline_2023, title = {Alkaline water electrolysis: with or without iron in the electrolyte?}, volume = {42}, issn = {22113398}, @@ -206,28 +195,27 @@ language = {en}, urldate = {2026-01-29}, journal = {Current Opinion in Chemical Engineering}, - publisher = {Elsevier Ltd.}, author = {De Groot, Matheus T}, month = dec, year = {2023}, + note = {Place: Netherlands +Publisher: Elsevier Ltd.}, pages = {100981}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\BSRHPPTA\\De Groot - 2023 - Alkaline water electrolysis with or without iron in the electrolyte.pdf:application/pdf}, } -@article{ref22, +@article{hysa_effect_2023, title = {Effect of voltage elevation on cost and energy efficiency of power electronics in water electrolyzers}, volume = {574}, doi = {10.1016/j.powsour.2023.233108}, number = {233108}, journal = {Journal of Power Sources}, - publisher = {Elsevier B.V.}, author = {Hysa, Galdi and Ruuskanen, Vesa and Kosonen, Antti and Niemela, Markku and Aarniovuori, Lassi}, month = may, year = {2023}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\54NDGJ4N\\Hysa et al. - 2023 - Effect of voltage elevation on cost and energy efficiency of power electronics in water electrolyzer.pdf:application/pdf}, + note = {Publisher: Elsevier B.V.}, } -@article{ref24, +@article{kaplan_hydrogen_2023, title = {Hydrogen production via electrolysis: {Operando} monitoring and analyses}, volume = {3}, issn = {26671093}, @@ -239,15 +227,14 @@ number = {5}, urldate = {2026-01-29}, journal = {Chem Catalysis}, - publisher = {CellPress}, author = {Kaplan, Begüm Yarar and Kırlıoğlu, Ahmet Can and Alinezhadfar, Mohammad and Zabara, Mohammed Ahmed and Mojarrad, Naeimeh Rajabalizadeh and Iskandarani, Bilal and Yürüm, Alp and Ozkan, Cengiz Sinan and Ozkan, Mihrimah and Gürsel, Selmiye Alkan}, month = may, year = {2023}, + note = {Publisher: CellPress}, pages = {100601}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\P5PED3I9\\Kaplan et al. - 2023 - Hydrogen production via electrolysis Operando monitoring and analyses.pdf:application/pdf}, } -@article{ref25, +@article{liu_understanding_2022, title = {Understanding the reaction mechanism of {Kolbe} electrolysis on {Pt} anodes}, volume = {2}, issn = {26671093}, @@ -258,15 +245,14 @@ number = {5}, urldate = {2026-01-29}, journal = {Chem Catalysis}, - publisher = {CellPress}, author = {Liu, Sihang and Govindarajan, Nitish and Prats, Hector and Chan, Karen}, month = may, year = {2022}, + note = {Publisher: CellPress}, pages = {1100--1113}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\YM72PY3W\\Liu et al. - 2022 - Understanding the reaction mechanism of Kolbe electrolysis on Pt anodes.pdf:application/pdf}, } -@article{ref29, +@article{amireh_impact_2023-1, title = {Impact of power supply fluctuation and part load operation on the efficiency of alkaline water electrolysis}, volume = {560}, issn = {03787753}, @@ -280,10 +266,9 @@ month = mar, year = {2023}, pages = {232629}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\TUMYCRF9\\Amireh et al. - 2023 - Impact of power supply fluctuation and part load operation on the efficiency of alkaline water elect.pdf:application/pdf}, } -@article{ref31, +@article{mazloomi_investigation_2012, title = {An {Investigation} into the {Electrical} {Impedance} of {Water} {Electrolysis} {Cells} - {With} a {View} to {Saving} {Energy}}, volume = {7}, issn = {14523981}, @@ -297,10 +282,9 @@ month = apr, year = {2012}, pages = {3466--3481}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\LKC3KDCX\\Mazloomi et al. - 2012 - An Investigation into the Electrical Impedance of Water Electrolysis Cells - With a View to Saving E.pdf:application/pdf}, } -@article{ref32, +@article{sugahara_analytic_2023, title = {An analytic equation for single cell electrochemical impedance spectroscopy with a dependence on cell position}, volume = {13}, issn = {2158-3226}, @@ -315,10 +299,9 @@ month = sep, year = {2023}, pages = {095315}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\5DWWFV3X\\Sugahara and Uno - 2023 - An analytic equation for single cell electrochemical impedance spectroscopy with a dependence on cel.pdf:application/pdf}, } -@article{ref33, +@article{pedersen_equivalent_2023, title = {Equivalent {Circuit} and {Continuum} {Modeling} of the {Impedance} of {Electrolyte}-{Filled} {Pores}}, volume = {2}, issn = {2768-5608}, @@ -332,17 +315,15 @@ month = oct, year = {2023}, pages = {043006}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\D9IJA92Q\\Pedersen et al. - 2023 - Equivalent Circuit and Continuum Modeling of the Impedance of Electrolyte-Filled Pores.pdf:application/pdf}, } -@article{ref34, +@article{shiozawa_analytical_2022, title = {An analytical formula for determining the electrical impedance between a single adherent cell and sensor substrate}, volume = {61}, issn = {0021-4922, 1347-4065}, url = {https://iopscience.iop.org/article/10.35848/1347-4065/ac9877}, doi = {10.35848/1347-4065/ac9877}, - abstract = {Abstract - An analytical formula for the electrical impedance between an adherent living cell and a sensor substrate measured using a microelectrode is presented for the first time. Previously-reported formula has been applicable only for the case where many cells are on a large electrode. In contrast, our formula is valid even when a microelectrode smaller than the cell-size is underneath the cell, which is often the case for the state-of-the-art single-cell analysis. Numerical simulations for verifying the accuracy of our formula reveals that the discrepancies between the theoretical impedances calculated by our formula and numerical simulation results are negligibly small. Our formula will be useful for describing cell-substrate impedance properties in equivalent circuit model analysis or sensor design optimizations.}, + abstract = {Abstract An analytical formula for the electrical impedance between an adherent living cell and a sensor substrate measured using a microelectrode is presented for the first time. Previously-reported formula has been applicable only for the case where many cells are on a large electrode. In contrast, our formula is valid even when a microelectrode smaller than the cell-size is underneath the cell, which is often the case for the state-of-the-art single-cell analysis. Numerical simulations for verifying the accuracy of our formula reveals that the discrepancies between the theoretical impedances calculated by our formula and numerical simulation results are negligibly small. Our formula will be useful for describing cell-substrate impedance properties in equivalent circuit model analysis or sensor design optimizations.}, language = {en}, number = {11}, urldate = {2026-01-29}, @@ -351,10 +332,9 @@ month = nov, year = {2022}, pages = {117001}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\CY3I5E8M\\Shiozawa and Uno - 2022 - An analytical formula for determining the electrical impedance between a single adherent cell and se.pdf:application/pdf}, } -@article{ref35, +@article{jarvinen_experimental_2024, title = {Experimental study of alkaline water electrolyzer performance and frequency behavior under high frequency dynamic operation}, volume = {67}, issn = {03603199}, @@ -368,10 +348,9 @@ month = may, year = {2024}, pages = {50--61}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\F8EGRG5H\\Järvinen et al. - 2024 - Experimental study of alkaline water electrolyzer performance and frequency behavior under high freq.pdf:application/pdf}, } -@book{ref36, +@book{bard_electrochemical_2001, address = {New York}, edition = {2nd ed}, title = {Electrochemical methods: fundamentals and applications}, @@ -382,10 +361,9 @@ author = {Bard, Allen J. and Faulkner, Larry R.}, year = {2001}, keywords = {Electrochemistry}, - file = {36_Electrochemical Methods - Fundamentals and Applns 2nd ed - A. Bard, L. Faulkner (Wiley, 2001) WW:C\:\\Users\\ponce\\Zotero\\storage\\H6W2ZQ99\\Bard and Faulkner - 2001 - Electrochemical methods fundamentals and applications.pdf:application/pdf}, } -@book{ref37, +@book{atkins_physical_nodate, address = {New York}, edition = {8}, title = {Physical {Chemistry}}, @@ -393,10 +371,9 @@ language = {English}, publisher = {W.H. Freeman}, author = {Atkins, Peter and De Paula, Julio}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\BMIM6GLC\\Atkins and De Paula - Physical Chemistry.pdf:application/pdf}, } -@article{ref38, +@article{el-shafie_hydrogen_2023, title = {Hydrogen production by water electrolysis technologies: {A} review}, volume = {20}, issn = {25901230}, @@ -411,35 +388,33 @@ month = dec, year = {2023}, pages = {101426}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\A6SLUH5R\\El-Shafie - 2023 - Hydrogen production by water electrolysis technologies A review.pdf:application/pdf}, } -@article{ref39, - address = {Netherlands}, +@article{de_groot_advanced_2024, title = {Advanced characterization of alkaline water electrolysis through electrochemical impedance spectroscopy and polarization curves}, volume = {974}, doi = {10.1016/j.jelechem.2024.118709}, number = {118709}, journal = {Journal of Electroanalytical Chemistry}, - publisher = {Elsevier B.V.}, author = {De Groot, Matheus T. and Vermeulen, Paul}, month = oct, year = {2024}, + note = {Place: Netherlands +Publisher: Elsevier B.V.}, pages = {10}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\RV6JKJHW\\De Groot and Vermeulen - 2024 - Advanced characterization of alkaline water electrolysis through electrochemical impedance spectrosc.pdf:application/pdf}, } -@phdthesis{ref42, +@phdthesis{lopez_ramirez_modelo_2011, address = {Sevilla}, + type = {{PhD} {Thesis}}, title = {Modelo dinámico de un electrolizador alcalino}, language = {Español}, school = {Universidad de Sevilla}, author = {López Ramírez, Juan Rafael}, year = {2011}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\EFFY5H3Z\\López Ramírez - 2011 - Modelo dinámico de un electrolizador alcalino.pdf:application/pdf}, } -@article{ref43, +@article{guerra_hidrogeno_2010, title = {El {Hidrógeno} como almcacen energético. {Aplicación} de la pila de combustible reversible polimérica.}, volume = {14}, language = {es}, @@ -447,10 +422,9 @@ author = {Guerra, D Carlos Fúnez and Clemente, M. del Carmen and {Funez Guerra, Carlos}}, year = {2010}, pages = {71--91}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\Q7F4U3UA\\Guerra et al. - 2010 - El Hidrógeno como almcacen energético. Aplicación de la pila de combustible reversible polimérica..pdf:application/pdf}, } -@article{ref46, +@article{de_groot_advanced_2024-1, title = {Advanced characterization of alkaline water electrolysis through electrochemical impedance spectroscopy and polarization curves}, volume = {974}, issn = {15726657}, @@ -464,10 +438,9 @@ month = dec, year = {2024}, pages = {118709}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\CZDM7YQ8\\De Groot and Vermeulen - 2024 - Advanced characterization of alkaline water electrolysis through electrochemical impedance spectrosc.pdf:application/pdf}, } -@article{ref47, +@article{lira_garcia_barros_elucidating_2024, title = {Elucidating the increased ohmic resistances in zero-gap alkaline water electrolysis}, volume = {507}, issn = {00134686}, @@ -481,10 +454,9 @@ month = dec, year = {2024}, pages = {145161}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\IA7XZ24I\\Lira Garcia Barros et al. - 2024 - Elucidating the increased ohmic resistances in zero-gap alkaline water electrolysis.pdf:application/pdf}, } -@article{ref49, +@article{pape_performance_2025, title = {Performance data extraction from dynamic long-term operation of proton exchange membrane and alkaline water electrolysis cells}, volume = {127}, issn = {03603199}, @@ -498,10 +470,9 @@ month = may, year = {2025}, pages = {51--63}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\F8PPURT9\\Pape et al. - 2025 - Performance data extraction from dynamic long-term operation of proton exchange membrane and alkalin.pdf:application/pdf}, } -@article{ref52, +@article{zhang_flexible_2024, title = {Flexible endothermic or exothermic operation for temperature-oriented alkaline water electrolysis}, volume = {5}, issn = {26663864}, @@ -516,10 +487,9 @@ month = apr, year = {2024}, pages = {101900}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\HKIXQH33\\Zhang et al. - 2024 - Flexible endothermic or exothermic operation for temperature-oriented alkaline water electrolysis.pdf:application/pdf}, } -@article{ref57, +@article{de_groot_ohmic_2021, title = {Ohmic resistance in zero gap alkaline electrolysis with a {Zirfon} diaphragm}, volume = {369}, issn = {00134686}, @@ -533,10 +503,9 @@ month = feb, year = {2021}, pages = {137684}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\GRJMS7IE\\De Groot and Vreman - 2021 - Ohmic resistance in zero gap alkaline electrolysis with a Zirfon diaphragm.pdf:application/pdf}, } -@article{ref58, +@article{molmen_contact_2023, title = {Contact resistance measurement methods for {PEM} fuel cell bipolar plates and power terminals}, volume = {555}, issn = {03787753}, @@ -550,10 +519,9 @@ month = jan, year = {2023}, pages = {232341}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\YNRV7XTT\\Mølmen et al. - 2023 - Contact resistance measurement methods for PEM fuel cell bipolar plates and power terminals.pdf:application/pdf}, } -@article{ref59, +@article{haverkort_voltage_2021, title = {Voltage losses in zero-gap alkaline water electrolysis}, volume = {497}, issn = {03787753}, @@ -567,10 +535,9 @@ month = jun, year = {2021}, pages = {229864}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\PXI67LLK\\Haverkort and Rajaei - 2021 - Voltage losses in zero-gap alkaline water electrolysis.pdf:application/pdf}, } -@article{ref60, +@article{zhang_dynamic_2025, title = {Dynamic {Electrochemical} {Impedance} {Spectroscopy}: {A} {Forward} {Application} {Approach} for {Lithium}‐{Ion} {Battery} {Status} {Assessment}}, volume = {7}, issn = {2567-3173, 2567-3173}, @@ -586,6 +553,17 @@ month = jul, year = {2025}, pages = {e70018}, - file = {PDF:C\:\\Users\\ponce\\Zotero\\storage\\FDADJ9TN\\Zhang et al. - 2025 - Dynamic Electrochemical Impedance Spectroscopy A Forward Application Approach for Lithium‐Ion Batte.pdf:application/pdf}, } +@book{dicks_fuel_2018, + address = {Hoboken, NJ, USA}, + edition = {Third edition}, + title = {Fuel cell systems explained}, + isbn = {978-1-118-70697-8 978-1-118-70699-2 978-1-118-70696-1 978-1-118-70698-5 978-1-5231-2355-1}, + language = {en}, + publisher = {Wiley}, + author = {Dicks, Andrew L. and Rand, D. A. J.}, + year = {2018}, + doi = {10.1002/9781118706992}, + file = {PDF:/Users/mguillermo/Zotero/storage/3XDVW6J9/Dicks and Rand - 2018 - Fuel cell systems explained.pdf:application/pdf}, +} diff --git a/Documento/Ponce_Mario.docx b/Documento/Ponce_Mario.docx index ff67acc2f3aaa127448b0290840296c7571a4643..c9a7350eab43af070ee970c2b48ff8030e41d696 100644 GIT binary patch delta 6497 zcmZ9QWmJ@1*T-kb8M=m)p&7axNeLCChDK758itS-89+c%ks6SaEfdX?2qiD2 z36sb=Yc%e#`s-ch4Pq`TMFlK_9@&2wD4dU>+Tb>J*0-;uZj*N22wZvGE{y(Bkx_TL zFClI}Su7MwWx!>{XkCY`wa~GZ;?XNoJpq z%5jX&%bgdpnQRFAFZlNHjZg2t2+}pnIr)ZZ*K%Ah{#i(n385miN}o*25C9lQ!M>cR zjw3=FX?X}KvmZ>^fGH#n>gVT}(uP;r&SfYaihL=HU&L9{Z6*g(Ik56JKX`bJ!f^mMtKA=7lKS6NHN3RjS zFd=s+@)UU0J?A;uK{dTWw>KwNWcjf!UFb=TnnTIW3;Jj8K&Kw}9DZ8K@wC2Do+mg% z(Y4vvMXlj&3P~fMIP8mQ$~6($UttCslycKOBJ7}Zy&ct4D{rcoHdJ6%LBmZG-KywN{smNDD4zB2UoYuaVoB={lPaY3AR8`ESG9 zw$L0f^Q=q+g5Wo%{;AFJ>3(EFbgKlaEp!M@ZW`@e7L~lfD!?Mct*w>^5bI8lNiJB& z5!IgH)iFAP&DMN3|XoXmbtVZ8G4u2{c4k4}xc&yHJHlsN^#7FDg 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Este fenómeno ocurre en una celda electroquímica, donde se aplica una diferencia de potencial entre dos electrodos sumergidos en un electrolito, lo que promueve el transporte iónico y la transferencia de carga en las interfaces electrodo-electrolito, propiciando la descomposición de un compuesto en especies más simples [@ref36]. -La reacción global de la electrolisis del agua puede representarse como [@eqh2o] +La reacción global de la electrolisis del agua puede representarse como [@eq:h2o] $$ \mathrm{2H_2O \rightarrow 2H_2 + O_2} diff --git a/Documento/~$nce_Mario.docx b/Documento/~$nce_Mario.docx deleted file mode 100644 index 3c7323c80a37457ef97f6b86de5aefc548bfed9e..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 162 zcmZ|I!3n@13c9VvlZ9at0J0u}j8%lAHIoXy{QE5zx pO>XIY;Wz;q6@~!?A!2)*9(G%w72ks9LP(zr9+&R@=jibh@B&%A7##or