Methanol conversion efficiency to CO_2 on PtRu nanoparticles supported catalysts, a DEMS study

Maria Baena-Moncada Angelica; Bazan-Aguilar Antony; Pastor Elena; Angel Planes Gabriel

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Methanol conversion efficiency to CO_2 on PtRu nanoparticles supported catalysts, a DEMS study

机译：DEMS研究表明，PtRu纳米颗粒负载的催化剂上甲醇转化为CO_2的效率

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A comparative study of the use of PtRu nanoparticles supported on hierarchical porous carbons with different pore sizes for CO2 production efficiency during methanol electro-oxidation was performed by Differential Electrochemical Mass Spectrometry. The supported catalyst PtRu/HPC400 Presented an ESA of 82.56 m(2) g(-1) lower than the commercial catalyst PtRu/E-tek (107.2 m(2) g(-1)); however, it has higher performance for methanol electro-oxidation. Methanol conversion efficiency reaches values higher than PtRu/E-tek commercial catalyst, 93.17% for PtRu/HPC400 versus 41.36% for PtRu/E-tek, under potentiodynamic conditions. The hierarchical porous carbons interconnected channels improve the mass transport process.

机译：通过差示电化学质谱法对甲醇电氧化过程中具有不同孔径的分级多孔碳上负载PtRu纳米颗粒的CO2生产效率进行了比较研究。负载型催化剂PtRu / HPC400的ESA比市售催化剂PtRu / E-tek（107.2 m（2）g（-1））低82.56 m（2）g（-1）；但是，它具有较高的甲醇电氧化性能。在电位动力学条件下，甲醇转化效率达到的值高于PtRu / E-tek商业催化剂，PtRu / HPC400为93.17％，而PtRu / E-tek为41.36％。分层的多孔碳互连通道改善了质量传输过程。

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来源
《Journal of power sources 》 |2019年第15期| 226915.1-226915.8| 共8页
作者
Maria Baena-Moncada Angelica; Bazan-Aguilar Antony; Pastor Elena; Angel Planes Gabriel;
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作者单位

Univ Nacl Ingn Fac Ciencias Lab Invest Electroquim Aplicada Av Tupac Amaru 210 Lima Peru;

Univ La Laguna Dept Quim Fis Inst Mat & Nanotecnol Ave Astrofis F Sanchez S-N Apartado Postal 456 Tenerife 38071 Spain;

Univ Nacl Rio Cuarto Ruta Nac 36 Km 601 X5804BYA Cordoba Argentina;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
PtRu catalyst; Hierarchical porous carbon (HPC); Differential electrochemical mass spectrometry (DEMS); Methanol electro-oxidation;

机译：PtRu催化剂;分层多孔碳（HPC）;差示电化学质谱法（DEMS）;甲醇电氧化;

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1. Methanol Electrooxidation on PtRu Bulk Alloys and Carbon-Supported PtRu Nanoparticle Catalysts: A Quantitative DEMS Study [J] . Wang HS, Alden LR, DiSalvo FJ, Langmuir: The ACS Journal of Surfaces and Colloids . 2009 ,第13期

机译：PtRu块状合金和碳载PtRu纳米颗粒催化剂上的甲醇电氧化：定量DEMS研究
2. The efficiency of methanol conversion to CO{sub}2 on thin films of Pt and PtRu fuel cell catalysts [J] . Lin Gao, Huiliang Huang, Carol Korzeniewski Electrochimica Acta . 2004 ,第8期

机译：Pt和PtRu燃料电池催化剂薄膜上甲醇转化为CO {sub} 2的效率
3. Electrooxidation of acetaldehyde on carbon-supported Pt, PtRu and Pt_3Sn and unsupported PtRu_(0.2) catalysts: A quantitative DEMS study [J] . H. WANG, Z. JUSYS, R.J. BEHM Journal of Applied Electrochemistry . 2006 ,第11期

机译：乙醛在碳载Pt，PtRu和Pt_3Sn和无载PtRu_（0.2）催化剂上的电氧化：定量DEMS研究
4. Study of Supported Pt and PtRu Catalysts in Methanol and Formic Acid Oxidation [C] . A.V. Tripkovic, K.Dj. Popovic, J.D. Lovic Yugoslav Materials Research Society Conference on Progress in Advanced Materials and Processes; 20030915-20030919; Herceg,Novi; YU . 2003

机译：甲醇和甲酸氧化中负载型Pt和PtRu催化剂的研究
5. Undoped and boron doped diamond nanoparticles as platinum and platinum-ruthenium catalyst support for direct methanol fuel cell application. [D] . La Torre Riveros, Lyda. 2010

机译：未掺杂和硼掺杂的金刚石纳米粒子，可作为铂和铂钌催化剂直接支持甲醇燃料电池的应用。
6. Sol–Gel Synthesis of Ruthenium Oxide NanowiresTo Enhance Methanol Oxidation in Supported Platinum Nanoparticle Catalysts [O] . Lukasz Sztaberek, ∥, Hannah Mabey, 2019

机译：溶胶-凝胶法合成氧化钌纳米线增强负载的铂纳米颗粒催化剂中的甲醇氧化
7. Upscaling high activity oxygen evolution catalysts based on CoFe2O4 nanoparticles supported on nickel foam for power-to-gas electrochemical conversion with energy efficiencies above 80 [O] . Félix Urbain, Ruifeng Du, Pengyi Tang, 2019

机译：基于CoFe2O4纳米颗粒的高活性氧量催化剂，其负载在镍泡沫上，用于高于80％的能量效率的能量效率
8. Liquid phase methanol LaPorte process development unit: Modification, operation, and support studies. Task 3.8, Catalyst poisons field demonstration. [R] . 1990

机译：液相甲醇Laporte工艺开发单元：修改，操作和支持研究。任务3.8，催化剂毒药现场演示。

Methanol conversion efficiency to CO_2 on PtRu nanoparticles supported catalysts, a DEMS study

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