Effects of Pt shell thicknesses on the atomic structure of Ru-Pt core-shell nanoparticles for methanol electrooxidation applications

Chen T.-Y.; Lin T.-L.; Luo T.-J.M.; Choi Y.; Lee J.-F.

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Effects of Pt shell thicknesses on the atomic structure of Ru-Pt core-shell nanoparticles for methanol electrooxidation applications

机译：铂壳厚度对甲醇电氧化应用Ru-Pt核壳纳米粒子原子结构的影响

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In this research, core-shell electrocatalysts comprising a Ru core covered with precisely controlled 1.5-3.6 atomic layers (ALs)-thick Pt atoms are synthesized. The sample with 1.5 ALs shows a 3.2-fold improvement in CO-tolerance and 2.4-fold current enhancement at the conventional battery operation potential (I_(300), at 300 mV vs Ag/AgCl) during methanol oxidation as compared with conventional all-Pt nanoparticles. The origin of the enhanced performance and the atomic structure of the core-shell nanoparticles are elucidated to be mainly dominated by the lattice strain (possibly some slight effect of heteroatomic interactions) then by the combination of ligand effects and bifunctional mechanisms when the shell crystal is thicker than 2.7 ALs.

机译：在这项研究中，合成了包含被精确控制的1.5-3.6原子层（ALs）-厚Pt原子覆盖的Ru核的核-壳电催化剂。具有1.5 ALs的样品在甲醇氧化过程中，在常规电池工作电势（I_（300），在300 mV vs Ag / AgCl时）下，其CO耐受性提高了3.2倍，电流增强了2.4倍。铂纳米粒子。阐明了核-壳纳米颗粒增强性能和原子结构的起因主要是由晶格应变（可能是一些轻微的杂原子相互作用的影响）主导，然后是由壳晶体为配体时的配体效应和双功能机理共同决定的。比2.7 AL更厚。

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《Chemphyschem: A European journal of chemical physics and physical chemistry》 |2010年第11期|共10页
作者
Chen T.-Y.; Lin T.-L.; Luo T.-J.M.; Choi Y.; Lee J.-F.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Fuel cell; Heterogeneous catalysts; Nanoparticles; Redox chemistry; X-ray absorption spectroscopy;

机译：燃料电池;非均相催化剂;纳米颗粒;氧化还原化学;X射线吸收光谱;

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1. Effects of Pt shell thicknesses on the atomic structure of Ru-Pt core-shell nanoparticles for methanol electrooxidation applications [J] . Chen T.-Y., Lin T.-L., Luo T.-J.M., Chemphyschem: A European journal of chemical physics and physical chemistry . 2010,第11期

机译：铂壳厚度对甲醇电氧化应用Ru-Pt核壳纳米粒子原子结构的影响
2. Core-shell structured tungsten-tungsten carbide as a Pt catalyst support and its activity for methanol electrooxidation [J] . M.D. Obradovic, B.M. Babic, V.R. Radmilouic, International journal of hydrogen energy . 2012,第14期

机译：核-壳结构钨-碳化钨作为Pt催化剂载体及其对甲醇电氧化的活性
3. Self-assembly of Au-Pt core-shell nanoparticles for effective enhancement of methanol electrooxidation [J] . Mei-Yun Duan, Ren Liang, Na Tian, Electrochimica Acta . 2013,第Null期

机译：Au-Pt核壳纳米粒子的自组装，可有效增强甲醇的电氧化作用
4. Characterizations of Core-Shell Nanoparticle Catalysts for Methanol Electrooxidation [C] . Mathew M. Maye, Jin Luo, Wai-Ben Chan, Materials Research Society Symposium . 2003

机译：甲醇电氧化核 - 壳纳米粒子催化剂的特征
5. Structural, Optical and Photo-Electrochemical Properties of H:TiO2 Nanoparticle, TiO2-MoS2 Nanocomposite and TiO2-BiVo4 Core-Shell Nanoparticle Structures [D] . Mehta, Manan. 2020

机译：H：TiO2纳米粒子，TiO2-MOS2纳米复合材料和TiO2-BIVO4核心壳纳米粒子结构的结构，光学和光电化学性质
6. A Strategy for Fabricating Porous PdNi@Pt Core-shell Nanostructures and Their Enhanced Activity and Durability for the Methanol Electrooxidation [O] . Xinyu Liu, Guangrui Xu, Yu Chen, -1

机译：一种制备多孔PdNi @ Pt核壳纳米结构的策略及其增强的甲醇电氧化活性和耐久性
7. Fabricating Core-Shell WC@C/Pt Structures and its Enhanced Performance for Methanol Electrooxidation [O] . Zhao-yang Chen, Long-fa Duan, You-qun Chu, 2017

机译：制造核心壳WC @ C / PT结构及其增强性能对甲醇电氧化

Effects of Pt shell thicknesses on the atomic structure of Ru-Pt core-shell nanoparticles for methanol electrooxidation applications

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