发表刊物:International Journal of Hydrogen Energy
关键字:Large current density
Surface reconstruction
Nanoneedle array
Bimetallic phosphides
Heterostructure
摘要:The development of transition metal electrocatalysts with excellent HER, OER and HMFOR activity can accelerate
the achievement of “carbon peaking and carbon neutrality”. Herein, we report a simple structure modulation
and morphological strategy for constructing NixCoyP-3 nanoneedles array with superhydrophilic/
aerophobic surface. The small and well-dispersed nanoneedles can expose a larger electrochemical surface area.
It has good mechanical stability, which can withstand the impact of violent bubbles at ampere-level current
densities. NixCoyP-3 has a stronger H2O adsorption capacity than Ni2P, and can promote the adsorption and
desorption of H* to facilitate the HER process. During the OER process, the formation of the NixCoyP-3/NixCoyOOH
heterostructure is an important factor to stabilize oxygen evolution at ampere-level current densities.
During the HMFOR process, NixCoyP-3 has a stronger HMF adsorption energy than Ni2P, and the generated FDCA
can be desorbed from the NixCoyP-3 surface more easily. The overpotentials of the NixCoyP-3 are only 38.8 mV
and 231.2 mV for HER and OER at 10 mA cm− 2
in alkaline medium. When in the 1.0 M KOH + 50 mM HMF, only
1.37 V was required to reach a current density of 10 mA cm− 2
of the NixCoyP-3 II NixCoyP-3 two-electrode
system. NixCoyP-3 can drive 1000 mA cm− 2
overall water splitting for 100 h of stable operation in 1 M KOH,
validating its potential in industrial hydrogen production.
合写作者:Zhaokun Wang,Liang Chu,Zhi Huang
第一作者:Liyan Wang
论文类型:期刊论文
通讯作者:Mu Yang,Ge Wang
卷号:64,
页面范围:830-841.
是否译文:否
发表时间:2024-03-24
收录刊物:SCI