FeCr2O4Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity

Jian-HuiLi; Xian-ZhuFu; Gui-HuaZhou; Jing-LiLuo; Karl T.Chuang; Alan R.Sanger

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FeCr2O4Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity

机译：FeCr2O4纳米粒子作为乙烷质子传导燃料电池反应器的联产乙烯和电力的阳极催化剂

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Ethylene and electrical power are cogenerated in fuel cell reactors with FeCr2O4nanoparticles as anode catalyst,La0.7Sr0.3FeO3-δ(LSF) as cathode material, andBaCe0.7Zr0.1Y0.2O3-δ(BCZY) perovskite oxide as proton-conducting ceramic electrolyte. FeCr2O4, BCZY and LSF are synthesized by a sol-gel combustion method. The power density increases from 70 to 240 mW cm−2, and the ethylene yield increases from about 14.1% to 39.7% when the operating temperature of the proton-conducting fuel cell reactor increases from 650∘C to 750∘C. The FeCr2O4anode catalyst exhibits better catalytic performance than nanosized Cr2O3anode catalyst.

机译：在燃料电池反应堆中，以FeCr2O4纳米粒子为阳极催化剂，以La0.7Sr0.3FeO3-δ（LSF）为阴极材料，BaCe0.7Zr0.1Y0.2O3-δ（BCZY）钙钛矿氧化物作为质子传导陶瓷电解质，共生乙烯和电力。 FeCr2O4，BCZY和LSF通过溶胶-凝胶燃烧法合成。当质子传导燃料电池反应器的工作温度从650∘C升高到750∘C时，功率密度从70增加到240 mW cm-2，乙烯收率从大约14.1％增加到39.7％。 FeCr2O4阳极催化剂比纳米Cr2O3阳极催化剂具有更好的催化性能。

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《Advances in physical chemistry》 |2011年第4期|共6页
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Jian-HuiLi; Xian-ZhuFu; Gui-HuaZhou; Jing-LiLuo; Karl T.Chuang; Alan R.Sanger;
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中图分类物理化学（理论化学）、化学物理学;
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1. FeCr_2O_4 Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity [J] . Jian-Hui Li, Xian-Zhu Fu, Gui-Hua Zhou, Advances in physical chemistry . 2011,第Null期

机译：FeCr_2O_4纳米颗粒作为乙烷催化质子传导燃料电池反应器联产乙烯和电的催化剂
2. Ethane dehydrogenation over nano-Cr_2O_3 anode catalyst in proton ceramic fuel cell reactors to co-produce ethylene and electricity [J] . Xian-Zhu Fu, Xiao-Xiong Luo, Jing-Li Luo, Journal of power sources . 2011,第3期

机译：质子陶瓷燃料电池反应器中纳米Cr_2O_3阳极催化剂上的乙烷脱氢联产乙烯和电力
3. Co2CrO4 Nanopowders as an Anode Catalyst for Simultaneous Conversion of Ethane to Ethylene and Power in Proton-Conducting Fuel Cell Reactors [J] . Lin Jie-Yuan, Shao Lin, Si Feng-Zhan, The journal of physical chemistry, C. Nanomaterials and interfaces . 2018,第8期

机译：CO2CRO4纳米粉粉作为阳极催化剂，用于同时将乙烷转化为乙烯和质子传导燃料电池反应器中的功率
4. In-Situ Exsolved Alloy Nanoparticles on Perovskite for the Cogeneration of Ethylene and Electricity in Proton Conducting Fuel Cell [C] . Subiao Liu, Karl T. Chuang, Jing-Li Luo Meeting of the Electrochemical Society . 2017

机译：原位exsolved合金纳米粒子对钙钛矿用于质子传导燃料电池的乙烯和电力的热电联产
5. Quantum Mechanics Studies of Fuel Cell Catalysts and Proton Conducting Ceramics with Validation by Experiment. [D] . Tsai, Ho-Cheng. 2015

机译：燃料电池催化剂和质子传导陶瓷的量子力学研究，并通过实验验证。
6. Unveiling N-protonation and anion-binding effects on Fe/N/C-catalysts for O2 reduction in PEM fuel cells [O] . Juan Herranz, Frédéric Jaouen, Michel Lefèvre, -1

机译：对PEM燃料电池的Fe / N / C催化剂的N-质子化和阴离子结合效应进行PEM燃料电池
7. Erratum to “Double Layered Perovskite Anode with in Situ Exsolution of Co–Fe Alloy To Cogenerate Ethylene and Electricity in Proton-Conducting Ethane Fuel Cell” [O] . Subiao Liu, Karl T. Chuang, Jing-Li Luo 2016

机译：错误的“双层钙钛矿阳极与Co-Fe合金的原位exolution，以质子导电乙烷燃料电池中的乙烯和电力”
8. Improved anode catalysts for coal gas-fueled phosphoric acid fuel cells. Final report. [R] . Kackley, N. D., McCatty, S. A., Kosek, J. A. 1990

机译：用于煤气燃料磷酸燃料电池的改进的阳极催化剂。总结报告。

FeCr2O4Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity

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