贾长超   

个人简历:贾长超,青岛科技大学副教授,硕士生导师。长期从事半导体纳米材料可控合成及能源转换与存储研究,聚焦于纳米材料光催化研究,已在Adv. Funct. Mater.、 Chem. Eng. J.、Carbon、ACS Appl. Mater. Interfaces、Inorg. Chem. Front.等期刊发表SCI学术论文30余篇,授权发明专利10余项。主持山东省自然科学基金青年项目、中国博士后面上项目、青岛市自然科学基金原创探索项目等5项。获2019年山东省优秀博士学位论文。中...Detials

Ternary PtNiCu self-assembled nanocubes for plasmon-enhanced electrocatalytic hydrogen evolution and methanol oxidation reaction in visible light

Release time:2021-03-15  Hits:

  • Key Words:Catalytic oxidation;Binary alloys - Catalyst activity - Copper alloys - Electrocatalysis - Electrocatalysts - Electronic structure - Hydrogen production - Image enhancement - Light - Methanol - Morphology - Oxidation - Photoelectricity - Plasmons - Platinum alloys - Precious metals - Surface plasmon resonance - Ternary alloys
  • Abstract:The strong interaction among metal components results in the change of the electronic structure (e.g. d-band energy level) of noble metal-based alloy structures which enables the increase of catalytic activity. In this paper, self-assembled ternary PtNiCu and binary PtCu alloy nanocubes are synthesized by a one-pot high-temperature chemical reduction method. The growth mechanism of the alloy is investigated. The alloy is applied to visible light-assisted electrocatalytic hydrogen production and methanol oxidation. The ternary PtNiCu alloy exhibits superior catalytic performance (a minimum over potential of 15 mV at a current density of 10 mA cm<sup>−2</sup>, a Tafel slope of 24.1 mV/dec, and more excellent mass specific activity under visible light irradiation about 3.3 A mg<inf>Pt</inf><sup>−1</sup>), because of its regular morphology, more surface active sites, and more intense interaction between metal elements. Especially the localized surface plasmon resonance effect of Cu largely increases the electron density (photoelectric effect) on Pt under illumination, thereby further improves the photo-assisted hydrogen production and methanol catalytic oxidation performance. The results will promote efficient and accurate electrocatalysis process, paving new way for a brighter further in rational design of ternary plasmonic electrocatalysts and photoelectrocatalysis field.<br/> © 2020 Elsevier Ltd
  • Volume:349
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  • Translation or Not:no