Ammonia‐Induced FCC Ru Nanocrystals for Efficient Alkaline Hydrogen Electrocatalysis
Shunyi He, Yuanhua Tu, Jiaxi Zhang, Longhai Zhang, Jun Ke, Liming Wang, Li Du, Zhiming Cui, Huiyu Song
Abstract
Abstract The urgent development of effective electrocatalysts for hydrogen evolution and hydrogen oxidation reaction (HER/HOR) is needed due to the sluggish alkaline hydrogen electrocatalysis. Here, an unusual face‐centered cubic (fcc) Ru nanocrystal with favorable HER/HOR performance is offered. Guided by the lower calculated surface energy of fcc Ru than that of hcp Ru in NH 3 , the carbon‐supported fcc Ru electrocatalyst is facilely synthesized in the NH 3 reducing atmosphere. The specific HOR kinetic current density of fcc Ru can reach 23.4 mA cm PGM −2 , which is around 20 and 21 times greater than that of hexagonal close‐packed (hcp) Ru and Pt/C, respectively. Additionally, the HER specific activity is enhanced more than six times in fcc Ru electrocatalyst when compared to Pt/C. Experimental and theoretical analysis indicate that the phase transition from hcp Ru to fcc Ru can negatively shift the d band center, weaken the interaction between catalysts and key intermediates and therefore enhances the HER/HOR kinetics.