Wiley_ADVANCED ENERGY MATERIALS
Volume14, Issue12
March 22, 2024
2470055
Double-Walled Tubular Heusler-Type Platinum–Ruthenium Phosphide as All-pH Hydrogen Evolution Reaction Catalyst Outperforming Platinum and Ruthenium (Adv. Energy Mater. 12/2024)
In article number 2304269, Sung Jong Yoo, Sang Uck Lee, Kwangyeol Lee, and co-workers developed double-walled PtRuP2 nanotubes through ion-exchange techniques. These PtRuP2 nanotubes have been employed as remarkably efficient and durable cathode catalysts in anion-exchange membrane water electrolyzers (AEMWEs). The atomically localized metal-centers maximize synergistic interactions, effectively addressing the challenging kinetics of the non-acidic hydrogen evolution reaction, thereby promoting the commercialization of AEMWEs.
- Yongju Hong
- Seong Chan Cho
- Soobean Kim
- Haneul Jin
- Jae Hun Seol
- Tae Kyung Lee
- Jong-kyeong Ryu
- Gracita M. Tomboc
- Taekyung Kim
- Hionsuck Baik
- Changhyeok Choi
- Jinhyoung Jo
- Sangyeon Jeong
- Eunsoo Lee
- Yousung Jung
- Docheon Ahn
- Yong-Tae Kim
- Sung Jong Yoo
- Sang Uck Lee
- Kwangyeol Lee
https://onlinelibrary.wiley.com/doi/10.1002/aenm.202470055
Wiley_ADVANCED ENERGY MATERIALS
Volume14, Issue12
March 22, 2024
2470055
Double-Walled Tubular Heusler-Type Platinum–Ruthenium Phosphide as All-pH Hydrogen Evolution Reaction Catalyst Outperforming Platinum and Ruthenium (Adv. Energy Mater. 12/2024)
In article number 2304269, Sung Jong Yoo, Sang Uck Lee, Kwangyeol Lee, and co-workers developed double-walled PtRuP2 nanotubes through ion-exchange techniques. These PtRuP2 nanotubes have been employed as remarkably efficient and durable cathode catalysts in anion-exchange membrane water electrolyzers (AEMWEs). The atomically localized metal-centers maximize synergistic interactions, effectively addressing the challenging kinetics of the non-acidic hydrogen evolution reaction, thereby promoting the commercialization of AEMWEs.
https://onlinelibrary.wiley.com/doi/10.1002/aenm.202470055