Details

Autor(en) / Beteiligte

• Savych, I.
• Bernard d'Arbigny, J.
• Subianto, S.
• Cavaliere, S.
• Jones, D.J.
• Rozière, J.

Titel

On the effect of non-carbon nanostructured supports on the stability of Pt nanoparticles during voltage cycling: A study of TiO2 nanofibres

Ist Teil von

• Journal of power sources, 2014-07, Vol.257, p.147-155

Ort / Verlag

Amsterdam: Elsevier B.V

Erscheinungsjahr

2014

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• Electrospun carbon and Nb-doped TiO2 nanofibres (CNFs, TNFs) have been investigated as electrocatalyst supports for polymer electrolyte membrane fuel cells (PEMFC). The optimal Nb doping amount has been identified for TNFs, and thermal treatment of titanium oxide fibres optimised to balance the surface area and electronic conductivity requirements. The most highly conducting material is characterised by a high concentration of surface Ti3+ and Nb4+ (and oxygen vacancies). Pt nanoparticles of average diameter of 2.3 nm were loaded onto 10%at Nb doped-TiO2, retained as the best candidate for further electrochemical analysis, and on CNFs, using a microwave-assisted polyol method. Significantly higher electrochemically active surface area was retained after voltage cycling to 1.2 V for Pt supported on TNF (73%) than on CNFs, where only 8% of the original ECSA was conserved after 1000 voltammetric cycles. The mass activity was also slightly higher for the titanium oxide based electrodes in the oxygen reduction reaction. •TiO2 (TNF) and carbon nanofibres (CNF) were obtained by electrospinning/calcination.•Electronic conductivity of TNF was improved by doping and specific thermal treatments.•Pt loaded TNF and CNF were investigated as electrocatalyst supports for PEMFC.•Pt/TNF showed superior electrochemical stability compared to Pt/CNF.