GODOI, CAMILA M.GUTIERREZ, ISABELY M.GOMES, PAULO V.R.COELHO, JESSICA F.ZAMBIAZI, PRISCILLA J.OTUBO, LARISSANETO, ALMIR O.SOUZA, RODRIGO F.B. de2022-12-152022-12-152022GODOI, CAMILA M.; GUTIERREZ, ISABELY M.; GOMES, PAULO V.R.; COELHO, JESSICA F.; ZAMBIAZI, PRISCILLA J.; OTUBO, LARISSA; NETO, ALMIR O.; SOUZA, RODRIGO F.B. de. Production of methanol on PdCu/ATO in a polymeric electrolyte reactor of the fuel cell type from methane. <b>Methane</b>, v. 1, n. 3, p. 218-228, 2022. DOI: <a href="https://dx.doi.org/10.3390/methane1030018">10.3390/methane1030018</a>. Disponível em: http://repositorio.ipen.br/handle/123456789/33449.2674-0389http://repositorio.ipen.br/handle/123456789/33449The search for alternatives for converting methane into value-added products has been of great interest to scientific, technological, and industrial society. An alternative to this could be the use of copper-doped palladium catalysts with different proportions supported on metal oxides, such as Sb2O5.SnO2 (ATO) catalysts. These combinations were employed to convert the methane-to-methanol in mild condition using a fuel cell polymer electrolyte reactor. The catalysts prepared presents Pd, CuO, and Sb2O5.SnO2 phases with a mean particle size of about 9 nm. In activity experiments, the Pd80Cu20/ATO indicated maximum power density and maximum rate reaction for methanol production when compared to other PdCu/ATO materials. The use of ATO as a support favored the production of methanol from methane, while PdCu with high copper content demonstrated the production of more oxidized compounds, such as carbonate and formate.218-228openAccessmethanemethanol fuelsfuel cellselectrolytespolymersArtigo de periódico3110.3390/methane10300180000-0001-8745-3421https://orcid.org/0000-0002-9287-6071https://orcid.org/0000-0002-6078-229XSem PercentilSem Percentil CiteScore