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  • Source: ECS Transactions. Unidade: IQSC

    Subjects: ELETRÓLISE, ETANOL

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      FARO, Massimiliano Lo et al. Bioethanol-Aided Electrolysis of H2O. ECS Transactions, v. 111, n. 6, p. 1195, 2023Tradução . . Disponível em: https://doi.org/10.1149/11106.1195. Acesso em: 14 nov. 2024.
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      Faro, M. L., Ometto, F. B., Perez, J., & Ticianelli, E. A. (2023). Bioethanol-Aided Electrolysis of H2O. ECS Transactions, 111( 6), 1195. doi:10.1149/11106.1195
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      Faro ML, Ometto FB, Perez J, Ticianelli EA. Bioethanol-Aided Electrolysis of H2O [Internet]. ECS Transactions. 2023 ; 111( 6): 1195.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1149/11106.1195
    • Vancouver

      Faro ML, Ometto FB, Perez J, Ticianelli EA. Bioethanol-Aided Electrolysis of H2O [Internet]. ECS Transactions. 2023 ; 111( 6): 1195.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1149/11106.1195
  • Source: ACS Applied Nano Materials. Unidade: IQSC

    Subjects: NANOPARTÍCULAS, POLÍMEROS (MATERIAIS), NEOPLASIAS, BIOMEDICINA

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      PERECIN, Caio José et al. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment. ACS Applied Nano Materials, v. 5, n. 11, p. 16706–16719, 2022Tradução . . Disponível em: https://doi.org/10.1021/acsanm.2c03712. Acesso em: 14 nov. 2024.
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      Perecin, C. J., Sponchioni, M., Auriemma, R., Cerize, N. N. P., Moscatelli, D., & Varanda, L. C. (2022). Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment. ACS Applied Nano Materials, 5( 11), 16706–16719. doi:10.1021/acsanm.2c03712
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      Perecin CJ, Sponchioni M, Auriemma R, Cerize NNP, Moscatelli D, Varanda LC. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment [Internet]. ACS Applied Nano Materials. 2022 ; 5( 11): 16706–16719.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1021/acsanm.2c03712
    • Vancouver

      Perecin CJ, Sponchioni M, Auriemma R, Cerize NNP, Moscatelli D, Varanda LC. Magnetite Nanoparticles Coated with Biodegradable Zwitterionic Polymers as Multifunctional Nanocomposites for Drug Delivery and Cancer Treatment [Internet]. ACS Applied Nano Materials. 2022 ; 5( 11): 16706–16719.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1021/acsanm.2c03712
  • Source: Catalysts. Unidade: IQSC

    Subjects: ELETROCATÁLISE, CÉLULAS A COMBUSTÍVEL, PLATINA

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      VENTURINI, Seiti Inoue e ANTOLINI, Ermete e PEREZ, Joelma. Effect of CeO2 Presence on the Electronic Structure and the Activity for Ethanol Oxidation of Carbon Supported Pt. Catalysts, v. 11, n. 5, p. 579, 2021Tradução . . Disponível em: https://doi.org/10.3390/catal11050579. Acesso em: 14 nov. 2024.
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      Venturini, S. I., Antolini, E., & Perez, J. (2021). Effect of CeO2 Presence on the Electronic Structure and the Activity for Ethanol Oxidation of Carbon Supported Pt. Catalysts, 11( 5), 579. doi:10.3390/catal11050579
    • NLM

      Venturini SI, Antolini E, Perez J. Effect of CeO2 Presence on the Electronic Structure and the Activity for Ethanol Oxidation of Carbon Supported Pt [Internet]. Catalysts. 2021 ;11( 5): 579.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/catal11050579
    • Vancouver

      Venturini SI, Antolini E, Perez J. Effect of CeO2 Presence on the Electronic Structure and the Activity for Ethanol Oxidation of Carbon Supported Pt [Internet]. Catalysts. 2021 ;11( 5): 579.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/catal11050579
  • Source: Minerals. Unidade: IQSC

    Subjects: TRATAMENTO DE ÁGUA, RESÍDUOS INDUSTRIAIS, METAIS

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      PESCE, Ruggiero et al. Innovative Magnetic Aggregates for the Removal of Transition Metals from Industrial Wastewater. Minerals, v. 11, n. 6, p. 643 17 June 2021, 2021Tradução . . Disponível em: https://doi.org/10.3390/min11060643. Acesso em: 14 nov. 2024.
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      Pesce, R., Accogli, A., Kostoula, C., Ilare, J., Panzeri, G., Perecin, C. J., & Magagnin, L. (2021). Innovative Magnetic Aggregates for the Removal of Transition Metals from Industrial Wastewater. Minerals, 11( 6), 643 17 June 2021. doi:10.3390/min11060643
    • NLM

      Pesce R, Accogli A, Kostoula C, Ilare J, Panzeri G, Perecin CJ, Magagnin L. Innovative Magnetic Aggregates for the Removal of Transition Metals from Industrial Wastewater [Internet]. Minerals. 2021 ; 11( 6): 643 17 June 2021.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/min11060643
    • Vancouver

      Pesce R, Accogli A, Kostoula C, Ilare J, Panzeri G, Perecin CJ, Magagnin L. Innovative Magnetic Aggregates for the Removal of Transition Metals from Industrial Wastewater [Internet]. Minerals. 2021 ; 11( 6): 643 17 June 2021.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/min11060643
  • Source: Inorganic Chemistry. Unidade: IQSC

    Subjects: RUTÊNIO, NEOPLASIAS

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      SILVA, Monize M. da et al. Ruthenium(II) Diphosphine Complexes with Mercapto Ligands That Inhibit Topoisomerase IB and Suppress Tumor Growth In Vivo. Inorganic Chemistry, v. 60, p. 14174-14189, 2021Tradução . . Disponível em: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.inorgchem.1c01539. Acesso em: 14 nov. 2024.
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      Silva, M. M. da, Ribeiro, G. H., Camargo, M. S. de, Ferreira, A. G., Ribeiro, L., Barbosa, M. I. F., et al. (2021). Ruthenium(II) Diphosphine Complexes with Mercapto Ligands That Inhibit Topoisomerase IB and Suppress Tumor Growth In Vivo. Inorganic Chemistry, 60, 14174-14189. doi:10.1021/acs.inorgchem.1c01539
    • NLM

      Silva MM da, Ribeiro GH, Camargo MS de, Ferreira AG, Ribeiro L, Barbosa MIF, Deflon VM, Castelli S, Desideri A, Corrêa RS, Ribeiro AB, Nicolella HD, Ozelin SD, Tavares DC, Batista AA. Ruthenium(II) Diphosphine Complexes with Mercapto Ligands That Inhibit Topoisomerase IB and Suppress Tumor Growth In Vivo [Internet]. Inorganic Chemistry. 2021 ;60 14174-14189.[citado 2024 nov. 14 ] Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.inorgchem.1c01539
    • Vancouver

      Silva MM da, Ribeiro GH, Camargo MS de, Ferreira AG, Ribeiro L, Barbosa MIF, Deflon VM, Castelli S, Desideri A, Corrêa RS, Ribeiro AB, Nicolella HD, Ozelin SD, Tavares DC, Batista AA. Ruthenium(II) Diphosphine Complexes with Mercapto Ligands That Inhibit Topoisomerase IB and Suppress Tumor Growth In Vivo [Internet]. Inorganic Chemistry. 2021 ;60 14174-14189.[citado 2024 nov. 14 ] Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1021/acs.inorgchem.1c01539
  • Source: Catalysts. Unidade: IQSC

    Subjects: CÉLULAS A COMBUSTÍVEL, ADSORÇÃO, ELETRÓLITOS

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      GONZÁLEZ-HERNÁNDEZ, Martin e ANTOLINI, Ermete e PEREZ, Joelma. CO Tolerance and Stability of Graphene and N-Doped Graphene Supported Pt Anode Electrocatalysts for Polymer Electrolyte Membrane Fuel Cells. Catalysts, v. 10, n. 6, p. 597 May 2020, 2020Tradução . . Disponível em: https://doi.org/10.3390/catal10060597. Acesso em: 14 nov. 2024.
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      González-Hernández, M., Antolini, E., & Perez, J. (2020). CO Tolerance and Stability of Graphene and N-Doped Graphene Supported Pt Anode Electrocatalysts for Polymer Electrolyte Membrane Fuel Cells. Catalysts, 10( 6), 597 May 2020. doi:10.3390/catal10060597
    • NLM

      González-Hernández M, Antolini E, Perez J. CO Tolerance and Stability of Graphene and N-Doped Graphene Supported Pt Anode Electrocatalysts for Polymer Electrolyte Membrane Fuel Cells [Internet]. Catalysts. 2020 ; 10( 6): 597 May 2020.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/catal10060597
    • Vancouver

      González-Hernández M, Antolini E, Perez J. CO Tolerance and Stability of Graphene and N-Doped Graphene Supported Pt Anode Electrocatalysts for Polymer Electrolyte Membrane Fuel Cells [Internet]. Catalysts. 2020 ; 10( 6): 597 May 2020.[citado 2024 nov. 14 ] Available from: https://doi.org/10.3390/catal10060597
  • Source: Natural Product Research. Unidade: IQSC

    Subjects: QUÍMICA AMBIENTAL, FITOQUÍMICA, FLAVONOIDES

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      FREZZA, Claudio et al. Secondary metabolites of Tilia tomentosa Moench inflorescences collected in Central Italy: chemotaxonomy relevance and phytochemical rationale of traditional use. Natural Product Research, v. 34, n. 8, p. 1167–1174 2020, 2020Tradução . . Disponível em: https://doi.org/10.1080/14786419.2018.1550487. Acesso em: 14 nov. 2024.
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      Frezza, C., De Vita, D., Spinaci, G., Sarandrea, M., Venditti, A., & Bianco, A. (2020). Secondary metabolites of Tilia tomentosa Moench inflorescences collected in Central Italy: chemotaxonomy relevance and phytochemical rationale of traditional use. Natural Product Research, 34( 8), 1167–1174 2020. doi:10.1080/14786419.2018.1550487
    • NLM

      Frezza C, De Vita D, Spinaci G, Sarandrea M, Venditti A, Bianco A. Secondary metabolites of Tilia tomentosa Moench inflorescences collected in Central Italy: chemotaxonomy relevance and phytochemical rationale of traditional use [Internet]. Natural Product Research. 2020 ; 34( 8): 1167–1174 2020.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1080/14786419.2018.1550487
    • Vancouver

      Frezza C, De Vita D, Spinaci G, Sarandrea M, Venditti A, Bianco A. Secondary metabolites of Tilia tomentosa Moench inflorescences collected in Central Italy: chemotaxonomy relevance and phytochemical rationale of traditional use [Internet]. Natural Product Research. 2020 ; 34( 8): 1167–1174 2020.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1080/14786419.2018.1550487
  • Source: Journal of Energy Storage. Unidade: IQSC

    Subjects: ELETRÓLISE, ENERGIA, COMBUSTÍVEIS

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      LO FARO, Massimiliano et al. The role of CuSn alloy in the co-electrolysis of CO2 and H2O through an intermediate temperature solid oxide electrolyser. Journal of Energy Storage, v. 27, p. 100820, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.est.2019.100820. Acesso em: 14 nov. 2024.
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      Lo Faro, M., Silva, W. O. da, Barrientos, W. V., Saglietti, G. G. de A., Zignani, S. C., Ticianelli, E. A., et al. (2020). The role of CuSn alloy in the co-electrolysis of CO2 and H2O through an intermediate temperature solid oxide electrolyser. Journal of Energy Storage, 27, 100820. doi:10.1016/j.est.2019.100820
    • NLM

      Lo Faro M, Silva WO da, Barrientos WV, Saglietti GG de A, Zignani SC, Ticianelli EA, Antonucci V, Arico AS. The role of CuSn alloy in the co-electrolysis of CO2 and H2O through an intermediate temperature solid oxide electrolyser [Internet]. Journal of Energy Storage. 2020 ; 27 100820.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.est.2019.100820
    • Vancouver

      Lo Faro M, Silva WO da, Barrientos WV, Saglietti GG de A, Zignani SC, Ticianelli EA, Antonucci V, Arico AS. The role of CuSn alloy in the co-electrolysis of CO2 and H2O through an intermediate temperature solid oxide electrolyser [Internet]. Journal of Energy Storage. 2020 ; 27 100820.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.est.2019.100820
  • Source: Food Research International. Unidade: FZEA

    Subjects: CARNES E DERIVADOS, SUÍNOS, PRODUTOS NATURAIS, ANTIOXIDANTES, VIDA-DE-PRATELEIRA

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      LORENZO, Jose M. et al. Influence of pitanga leaf extracts on lipid and protein oxidation of pork burger during shelf-life. Food Research International, v. 114, p. 47-54, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.foodres.2018.07.046. Acesso em: 14 nov. 2024.
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      Lorenzo, J. M., Vargas, F. C., Strozzi, I., Pateiro, M., Furtado, M. M., Sant'Ana, A. de S., et al. (2018). Influence of pitanga leaf extracts on lipid and protein oxidation of pork burger during shelf-life. Food Research International, 114, 47-54. doi:10.1016/j.foodres.2018.07.046
    • NLM

      Lorenzo JM, Vargas FC, Strozzi I, Pateiro M, Furtado MM, Sant'Ana A de S, Rocchetti G, Barba FJ, Domínguez R, Lucini L, Sobral PJ do A. Influence of pitanga leaf extracts on lipid and protein oxidation of pork burger during shelf-life [Internet]. Food Research International. 2018 ; 114 47-54.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.foodres.2018.07.046
    • Vancouver

      Lorenzo JM, Vargas FC, Strozzi I, Pateiro M, Furtado MM, Sant'Ana A de S, Rocchetti G, Barba FJ, Domínguez R, Lucini L, Sobral PJ do A. Influence of pitanga leaf extracts on lipid and protein oxidation of pork burger during shelf-life [Internet]. Food Research International. 2018 ; 114 47-54.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.foodres.2018.07.046
  • Source: Metallomics. Unidade: IQSC

    Subjects: RUTÊNIO, DNA

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      CAMARGO, Mariana Santoro de et al. Inhibition of human DNA topoisomerase IB by nonmutagenic ruthenium(II)-based compounds with antitumoral activity. Metallomics, v. 8, n. 2, p. 179-192, 2016Tradução . . Disponível em: https://doi.org/10.1039/c5mt00227c. Acesso em: 14 nov. 2024.
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      Camargo, M. S. de, Silva, M. M. da, Correa, R. S., Vieira, S. D., Castelli, S., D'Anessa, I., et al. (2016). Inhibition of human DNA topoisomerase IB by nonmutagenic ruthenium(II)-based compounds with antitumoral activity. Metallomics, 8( 2), 179-192. doi:10.1039/c5mt00227c
    • NLM

      Camargo MS de, Silva MM da, Correa RS, Vieira SD, Castelli S, D'Anessa I, De Grandis R, Varanda E, Deflon VM, Desideri A, Batista AA. Inhibition of human DNA topoisomerase IB by nonmutagenic ruthenium(II)-based compounds with antitumoral activity [Internet]. Metallomics. 2016 ; 8( 2): 179-192.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1039/c5mt00227c
    • Vancouver

      Camargo MS de, Silva MM da, Correa RS, Vieira SD, Castelli S, D'Anessa I, De Grandis R, Varanda E, Deflon VM, Desideri A, Batista AA. Inhibition of human DNA topoisomerase IB by nonmutagenic ruthenium(II)-based compounds with antitumoral activity [Internet]. Metallomics. 2016 ; 8( 2): 179-192.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1039/c5mt00227c
  • Source: Science of the Total Environment. Unidade: IQSC

    Subjects: COMPOSTOS ORGÂNICOS, VERMICOMPOSTAGEM

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      SCAGLIA, Barbara et al. Investigating organic molecules responsible of auxin-like activity of humic acid fraction extracted from vermicompost. Science of the Total Environment, v. 562, p. 289–295, 2016Tradução . . Disponível em: https://doi.org/10.1016/j.scitotenv.2016.03.212. Acesso em: 14 nov. 2024.
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      Scaglia, B., Nunes, R. R., Rezende, M. O. de O., Tambone, F., & Adani, F. (2016). Investigating organic molecules responsible of auxin-like activity of humic acid fraction extracted from vermicompost. Science of the Total Environment, 562, 289–295. doi:10.1016/j.scitotenv.2016.03.212
    • NLM

      Scaglia B, Nunes RR, Rezende MO de O, Tambone F, Adani F. Investigating organic molecules responsible of auxin-like activity of humic acid fraction extracted from vermicompost [Internet]. Science of the Total Environment. 2016 ; 562 289–295.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.scitotenv.2016.03.212
    • Vancouver

      Scaglia B, Nunes RR, Rezende MO de O, Tambone F, Adani F. Investigating organic molecules responsible of auxin-like activity of humic acid fraction extracted from vermicompost [Internet]. Science of the Total Environment. 2016 ; 562 289–295.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.scitotenv.2016.03.212
  • Source: ChemCatChem. Unidade: IQSC

    Assunto: BIOCOMBUSTÍVEIS

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      FARO, Massimiliano Lo et al. Nickel-iron/gadolinium-doped ceria (CGO) composite electrocatalyst as a protective layer for a solid oxide fuel cell anode fed with biofuels. ChemCatChem, v. 8, p. 648-655, 2016Tradução . . Disponível em: https://doi.org/10.1002/cctc.20151090. Acesso em: 14 nov. 2024.
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      Faro, M. L., Trocino, S., Zignani, S. C., Italiano, C., Reis, R. M., Ticianelli, E. A., & Arico, A. S. (2016). Nickel-iron/gadolinium-doped ceria (CGO) composite electrocatalyst as a protective layer for a solid oxide fuel cell anode fed with biofuels. ChemCatChem, 8, 648-655. doi:10.1002/cctc.20151090
    • NLM

      Faro ML, Trocino S, Zignani SC, Italiano C, Reis RM, Ticianelli EA, Arico AS. Nickel-iron/gadolinium-doped ceria (CGO) composite electrocatalyst as a protective layer for a solid oxide fuel cell anode fed with biofuels [Internet]. ChemCatChem. 2016 ; 8 648-655.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1002/cctc.20151090
    • Vancouver

      Faro ML, Trocino S, Zignani SC, Italiano C, Reis RM, Ticianelli EA, Arico AS. Nickel-iron/gadolinium-doped ceria (CGO) composite electrocatalyst as a protective layer for a solid oxide fuel cell anode fed with biofuels [Internet]. ChemCatChem. 2016 ; 8 648-655.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1002/cctc.20151090
  • Source: Journal of Electroanalytical Chemistry. Unidade: IQSC

    Assunto: METANOL

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      ZIGNANI, Sabrina Campagna et al. Investigation of PtNi/C as methanol tolerant electrocatalyst for the oxygen reduction reaction. Journal of Electroanalytical Chemistry, v. 763, p. 10-17, 2016Tradução . . Disponível em: https://doi.org/10.1016/j.jelechem.2015.12.044. Acesso em: 14 nov. 2024.
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      Zignani, S. C., Baglio, V., Sebastían, D., Rocha, T. de A., Gonzalez, E. R., & Aricò, A. S. (2016). Investigation of PtNi/C as methanol tolerant electrocatalyst for the oxygen reduction reaction. Journal of Electroanalytical Chemistry, 763, 10-17. doi:10.1016/j.jelechem.2015.12.044
    • NLM

      Zignani SC, Baglio V, Sebastían D, Rocha T de A, Gonzalez ER, Aricò AS. Investigation of PtNi/C as methanol tolerant electrocatalyst for the oxygen reduction reaction [Internet]. Journal of Electroanalytical Chemistry. 2016 ; 763 10-17.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.jelechem.2015.12.044
    • Vancouver

      Zignani SC, Baglio V, Sebastían D, Rocha T de A, Gonzalez ER, Aricò AS. Investigation of PtNi/C as methanol tolerant electrocatalyst for the oxygen reduction reaction [Internet]. Journal of Electroanalytical Chemistry. 2016 ; 763 10-17.[citado 2024 nov. 14 ] Available from: https://doi.org/10.1016/j.jelechem.2015.12.044

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