High performance of multi-layered alternating Ni–Fe–P and Co–P films for hydrogen evolution|Zunhang Lv;Kaihang Wang;Yingying Si;Zihan Li;Tianpeng Yu;Xin Liu;Guixue Wang;Guangwen Xie;Luhua Jiang - 期刊导航|首站-论文投稿智能助手|论文发表|论文智能投稿|期刊自助发表推荐|杂志社快速发表|查同导刊-域田数据官方网站

典型文献

High performance of multi-layered alternating Ni–Fe–P and Co–P films for hydrogen evolution

文献摘要：

Judiciously engineering the electrocatalysts is attractive and challenging to exploit materials with high electrocatalytic performance for hydrogen evolution reaction. Herein, we successfully perform the interface engineering by alternately depositing Co–P and Ni–Fe–P films on nickel foam, via facile electroless plating and de-alloying process. This work shows that there is a significant effect of de-alloying process on alloy growth. The electronic structure of layered alloys is improved by interface engineering. The multilayer strategy significantly promotes the charge transfer. Importantly, the Co–P/Ni–Fe–P/NF electrode fabricated by interface engineering exhibits excellent electrocatalytic hydrogen evolution activity with an overpotential of 43.4 mV at 10 mA cm-2 and long-term durability for 72 h in alkaline medium (1 mol L-1 KOH). The innovative strategy of this work may aid further development of commercial electrocatalysts.

文献关键词：

中图分类号：

[1] 医药、卫生（R） / 药学（R9） / 药理学（R96） / 实验药理学（R965）

[2] 数理科学和化学（O） / 力学（O3） / 振动理论（O32） / 非线性振动（O322）

[3] 医药、卫生（R） / 基础医学（R3） / 病理学（R36） / 病理过程（R364）

作者姓名：

Zunhang Lv;Kaihang Wang;Yingying Si;Zihan Li;Tianpeng Yu;Xin Liu;Guixue Wang;Guangwen Xie;Luhua Jiang

作者机构：

College of Materials Science and Engineering,Qingdao University of Science and Technology,No.53 Zhengzhou Road,Qingdao,266042,China

文献出处：

绿色能源与环境（英文）

引用格式：

[1]Zunhang Lv;Kaihang Wang;Yingying Si;Zihan Li;Tianpeng Yu;Xin Liu;Guixue Wang;Guangwen Xie;Luhua Jiang-.High performance of multi-layered alternating Ni–Fe–P and Co–P films for hydrogen evolution)[J].绿色能源与环境（英文）,2022(01):75-85

A类：

Judiciously

B类：

High,performance,layered,alternating,Co,films,hydrogen,evolution,engineering,electrocatalysts,attractive,challenging,exploit,materials,high,electrocatalytic,reaction,Herein,we,successfully,interface,by,alternately,depositing,nickel,foam,via,facile,electroless,plating,alloying,process,This,work,shows,that,there,effect,growth,electronic,structure,alloys,improved,multilayer,strategy,significantly,promotes,charge,transfer,Importantly,electrode,fabricated,exhibits,excellent,activity,overpotential,mV,mA,long,term,durability,alkaline,medium,KOH,innovative,this,may,aid,further,development,commercial

AB值：

0.592988

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