Atomically dispersed single iron sites for promoting Pt and Pt 3 Co fuel cell catalysts: performance and durability improvements

Z Qiao, C Wang, C Li, Y Zeng, S Hwang, B Li… - Energy & …, 2021 - pubs.rsc.org
Significantly reducing platinum group metal (PGM) loading while improving catalytic
performance and durability is critical to accelerating proton-exchange membrane fuel cells …
被引用次数:197 相关文章

Atomically dispersed single iron sites for promoting Pt and Pt3Co fuel cell catalysts: performance and durability improvements

Z Qiao, C Wang, C Li, Y Zeng, S Hwang, B Li… - Energy & Environmental …, 2021 - osti.gov
Significantly reducing platinum group metal (PGM) loading while improving catalytic
performance and durability is critical to accelerating proton-exchange membrane fuel cells …
[PDF] iupui.edu

[PDF][PDF] Atomically dispersed single iron sites for promoting Pt and Pt3Co fuel cell catalysts: performance and durability improvements

Z Qiao, C Wang, C Li, Y Zeng, S Hwang, B Li… - 2021 - scholarworks.iupui.edu
Significantly reducing platinum group metal (PGM) loading while improving catalytic
performance and durability is critical to accelerating proton-exchange membrane fuel cells …

Atomically dispersed single iron sites for promoting Pt and Pt3Co fuel cell catalysts: performance and durability improvements

Z Qiao, C Wang, C Li, Y Zeng, S Hwang, B Li… - Energy & Environmental …, 2021 - osti.gov
Significantly reducing platinum group metal (PGM) loading while improving catalytic
performance and durability is critical to accelerating proton-exchange membrane fuel cells …
[PDF] iupui.edu

[PDF][PDF] Atomically dispersed single iron sites for promoting Pt and Pt3Co fuel cell catalysts: performance and durability improvements

Z Qiao, S Hwang - 2021 - scholarworks.iupui.edu
Atomically dispersed single iron sites for promoting Pt and Pt3Co fuel cell catalysts: performance
and durability improvements Page 1 US Department of Energy Brookhaven National …