Synthesis and evaluation of ATO as a support for Pt–IrO2 in a unitized regenerative fuel cell

“…Previous studies on the relationship between the annealing time and the electrochemical performance of ATO showed that a short time of heat treatment results in a better performance [16,46]. In a previous report, it was shown that only 3 h of calcination are required to obtain an adequate ATO material as a support for IrO 2 electrocatalysts.…”

“…, its electrical conductivity increases to 10 2 or 10 3 X -1 cm -1 [13][14][15]. Several studies indicate that the ATO could be used as a catalyst support for OER and ORR in a water electrolyzer (WE) and FCs, with a reported improvement in the stability of the support compared with an undoped oxide under the conditions of oxygen evolution [12,13,[16][17][18][19][20][21][22].…”

Electrochemical performance of a Sb-doped SnO2 support synthesized by coprecipitation for oxygen reactions

“…Previous studies on the relationship between the annealing time and the electrochemical performance of ATO showed that a short time of heat treatment results in a better performance [16,46]. In a previous report, it was shown that only 3 h of calcination are required to obtain an adequate ATO material as a support for IrO 2 electrocatalysts.…”

“…, its electrical conductivity increases to 10 2 or 10 3 X -1 cm -1 [13][14][15]. Several studies indicate that the ATO could be used as a catalyst support for OER and ORR in a water electrolyzer (WE) and FCs, with a reported improvement in the stability of the support compared with an undoped oxide under the conditions of oxygen evolution [12,13,[16][17][18][19][20][21][22].…”

Electrochemical performance of a Sb-doped SnO2 support synthesized by coprecipitation for oxygen reactions

“…In the structure design of Pt/IrO 2 catalyst, great efforts were spent on increasing the specific surface areas of IrO 2 and Pt catalysts so as to achieve high OER and ORR activities [13]. Thus high surface area of IrO 2 is first created, and then Pt nanoparticles are supported onto IrO 2 surface with high level of dispersion [14,15]. The overall performance of bifunctional Pt/IrO 2 catalyst depends on the material states of IrO 2 and Pt catalysts, and essentially, the behavior of Pt catalyst is also associated with the existent morphology of IrO 2 support (also as OER catalyst).…”

Preparation of IrO2 nanoparticles with SBA-15 template and its supported Pt nanocomposite as bifunctional oxygen catalyst

“…2. As indicated, the change of CV curves of ATO before and after oxidation was smaller than that of XC-72 carbon powder, which again showed the high electrochemical stability of ATO [25].…”

Antimony doped tin oxide applied in the gas diffusion layer for proton exchange membrane fuel cells