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Wet-chemistry topotactic synthesis of bimetallic iron-nickel sulfide nanoarrays: an advanced and versatile catalyst for energy efficient overall water and urea electrolysis
Zhu, Wenxin ; Yue, Zhihao ; Zhang, Wentao ; Hu, Na ; Luo, Zhengtao ; Ren, Meirong ; Xu, Zhijie ; Wei, Ziyi ; Suo, Yourui ; Wang, Jianlong
2018-03-14
发表期刊JOURNAL OF MATERIALS CHEMISTRY A
摘要In this study, we report that bimetallic iron-nickel sulfide nanowall arrays supported on nickel foam (Fe-11.1%-Ni3S2/Ni foam) via wet-chemistry conversion from its LDH precursor could perform the function of a high-performance and versatile catalyst toward both overall water and urea electrolysis in a base. Its efficiency for overall water splitting is superior to those of most newly reported transition metal-based bifunctional catalysts, with small cell voltage of 1.60 V needed to gain 10 mA cm(-2). Moreover, this electrode also performs well toward the UOR, requiring very small potentials of 0.284 and 0.372 V (vs. SCE) to achieve 10 and 100 mA cm(-2) in 1.0 M KOH with 0.33 M urea. After replacing the anodic OER with the UOR that has a much lower thermodynamic voltage, this urea-mediated water-electrolysis device could sustain an overall current density of 10 mA cm(-2) at a low voltage of only 1.46 V (140 mV less than that for its urea-free counterpart) for over 20 h. Also, battery-and solar energy-assisted overall water and urea electrolysis devices were built to explore the viability of future less-energy-intensive and large-scale hydrogen generation.
文献类型期刊论文
条目标识符http://210.75.249.4/handle/363003/44228
专题中国科学院西北高原生物研究所
推荐引用方式
GB/T 7714
Zhu, Wenxin,Yue, Zhihao,Zhang, Wentao,et al. Wet-chemistry topotactic synthesis of bimetallic iron-nickel sulfide nanoarrays: an advanced and versatile catalyst for energy efficient overall water and urea electrolysis[J]. JOURNAL OF MATERIALS CHEMISTRY A,2018.
APA Zhu, Wenxin.,Yue, Zhihao.,Zhang, Wentao.,Hu, Na.,Luo, Zhengtao.,...&Wang, Jianlong.(2018).Wet-chemistry topotactic synthesis of bimetallic iron-nickel sulfide nanoarrays: an advanced and versatile catalyst for energy efficient overall water and urea electrolysis.JOURNAL OF MATERIALS CHEMISTRY A.
MLA Zhu, Wenxin,et al."Wet-chemistry topotactic synthesis of bimetallic iron-nickel sulfide nanoarrays: an advanced and versatile catalyst for energy efficient overall water and urea electrolysis".JOURNAL OF MATERIALS CHEMISTRY A (2018).
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