In this study, an innovative carbon-free electrocatalyst for oxygen reduction reaction was synthesized depositing platinum on titanium nanotube suboxide (trititanium pentoxide nanotubes, TNTS) obtained from titania doped with molybdenum (Pt/TNTS-Mo). The TNTS-Mo support was synthesized in autoclave, while the Pt/TNTS-Mo using the polyol method. The carbon-free support and the Pt-based catalyst were fully characterized via rotating disk electrode (RDE) technique and polymer exchange membrane fuel cell (PEMFC) station by preparing a membrane electrode assembly (MEA) with Nafion® 115, loaded with 0.35 mgPt cm−2 of Pt/TNTS-Mo at the cathode, and 0.35 mgPt cm−2 of commercial Pt/C (E-TEK) at the anode. In RDE experiments, the Pt/TNTS-Mo exhibited low overpotential and remarkable electroactivity toward oxygen reduction reaction (ORR: mass activity of 110.7 mA mgPt−1 at 0.9 V vs SHE). Moreover, the Pt/TNTS-Mo demonstrated excellent stability. Tests in a 25 cm2 single cell PEMFC resulted to maximum power density of 0.52 Wcm−2.
Highly active platinum supported Mo-doped titanium nanotubes suboxide (Pt/TNTS-Mo) electrocatalyst for oxygen reduction reaction in PEMFC / Alipour Moghadam Esfahani, R.; Rivera Gavidia, L. M.; García, G.; Pastor, E.; Specchia, S.. - In: RENEWABLE ENERGY. - ISSN 0960-1481. - STAMPA. - 120:(2018), pp. 209-219. [10.1016/j.renene.2017.12.077]
Highly active platinum supported Mo-doped titanium nanotubes suboxide (Pt/TNTS-Mo) electrocatalyst for oxygen reduction reaction in PEMFC
Alipour Moghadam Esfahani, R.;Specchia, S.
2018
Abstract
In this study, an innovative carbon-free electrocatalyst for oxygen reduction reaction was synthesized depositing platinum on titanium nanotube suboxide (trititanium pentoxide nanotubes, TNTS) obtained from titania doped with molybdenum (Pt/TNTS-Mo). The TNTS-Mo support was synthesized in autoclave, while the Pt/TNTS-Mo using the polyol method. The carbon-free support and the Pt-based catalyst were fully characterized via rotating disk electrode (RDE) technique and polymer exchange membrane fuel cell (PEMFC) station by preparing a membrane electrode assembly (MEA) with Nafion® 115, loaded with 0.35 mgPt cm−2 of Pt/TNTS-Mo at the cathode, and 0.35 mgPt cm−2 of commercial Pt/C (E-TEK) at the anode. In RDE experiments, the Pt/TNTS-Mo exhibited low overpotential and remarkable electroactivity toward oxygen reduction reaction (ORR: mass activity of 110.7 mA mgPt−1 at 0.9 V vs SHE). Moreover, the Pt/TNTS-Mo demonstrated excellent stability. Tests in a 25 cm2 single cell PEMFC resulted to maximum power density of 0.52 Wcm−2.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2695545
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