极性(国际关系)
格式化
电极
材料科学
极性反转
法拉第效率
电流(流体)
氢氧化物
吸附
可逆氢电极
氢
电压
化学物理
工作(物理)
电流密度
无机化学
纳米技术
化学工程
电催化剂
光电子学
甲醇
化学
低压
双层(生物学)
铂金
催化作用
分析化学(期刊)
制氢
作者
Botao Zhu,Jie Xiong,Shuo Wu,Bin Sun,Jie Li,Yiding Zhang,Hui Lin,Zhenduo Wu,Lai Feng
标识
DOI:10.1002/anie.202525802
摘要
ABSTRACT It has been established that Pt‐based electrocatalysts can enable the methanol oxidation reaction (MOR) to produce value‐added formate at ultralow potentials. However, their sustainability is severely limited due to acute CO poisoning, particularly at high current densities. To address this challenge, we develop Pt@NiM‐LDH electrocatalysts (M = Co, Mn, Cu, Fe) by anchoring Pt sites onto NiM layered double hydroxide (LDH) support via Pt─O─Ni bonding, which mitigates CO poisoning. Critically, it is found that applying periodic current polarity reversal to a symmetric Pt@NiCo‐LDH‖Pt@NiCo‐LDH electrode pair drastically attenuates CO‐poisoning. This system thereby enables concurrent productions of hydrogen and formate for at least 120 h at an industrial‐level current density (300 mA cm −2 ) and a low cell voltage of 1.02 V, yielding a combined Faradaic efficiency of nearly 200%. Comprehensive experimental and theoretical studies reveal that the NiCo‐LDH support electronically modulates the Pt sites, suppressing both CO formation and adsorption. Furthermore, it is verified that the polarity reversal strategy weakens CO adsorption strength by inducing structural reconstruction of the electrical double layer (EDL). These synergistic mechanisms significantly enhance the sustainability of Pt‐based electrodes for coupled MOR‖HER electrolysis. This work thus provides a promising strategy for designing highly efficient and CO‐tolerant Pt‐based electrocatalytic systems.
科研通智能强力驱动
Strongly Powered by AbleSci AI