材料科学
腐蚀
阳极
聚吡咯
电解
复合数
多孔性
图层(电子)
电导率
纳米颗粒
复合材料
质子交换膜燃料电池
化学工程
电极
纳米技术
化学
燃料电池
聚合物
聚合
电解质
物理化学
工程类
作者
Yue Liu,Dongdong Wang,Heng Zhang,Lili Liu,Pei Liu,Shaobo Huang,Xindong Wang
标识
DOI:10.1021/acsanm.4c01377
摘要
Nowadays, Ti-based materials are used as the construction materials of anode porous transport layers (PTLs) in proton exchange membrane water electrolysis (PEM WE). The major limiting factors of Ti anodes include passivation and corrosion. Herein, the challenges are addressed by using selective pulsed electrodeposition (PE), preparing orientated Au nanoparticles (AuNPs) and a degradable polypyrrole (PPy) composite coating (PE-Au/PPy coating) on Ti-based PTLs. The PTL treatment consists of four steps: electropolymerizing of PPy, mechanical polishing of PPy outside the pores of Ti felts, acid etching, and final electrodepositing AuNPs. Testing results show that etched Ti enables AuNPs to be preferentially deposited on the active surface to make the PE-Au/PPy coating highly conductive, effectively inhibiting Ti passivation. PPy formed a conductivity difference with highly active acid-etched Ti, promoting the preferential deposition of AuNPs on the active Ti surface, which improves noble metal utilization. The PE-Au/PPy coating presents a low interfacial contact resistance (ICR) (ca. 0.9 mΩ cm2 at 140 N cm–2) and excellent corrosion resistance (0.17 μA cm–2) in the simulated PEM WE environments. Significantly, the PE-Au/PPy coating exhibits high electrochemical properties and ultralong lifespans of over 1000 h, still with a low ICR (1.5 mΩ cm2), further validating the usefulness of the protective layer. In addition, here the preferential deposition process of AuNPs on the Ti surface is analyzed using X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared (FT-IR), clarifying the protective mechanisms in PE-Au/PPy coating. Overall, this work not only shows the great potential of PE-Au/PPy coating as PTL anode materials but also optimizes noble metal utilization.
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