Microfluidic water splitting cell using 3D NiFe_2O_4 hollow spheres

Martinez-Lazaro A.; Rico-Zavala A.; Espinosa-Lagunes F. I.; Torres-Gonzalez Julieta; Alvarez-Contreras L.; Gurrola M. P.; Arriaga L. G.; Ledesma-Garcia J.; Ortiz-Ortega E.

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Microfluidic water splitting cell using 3D NiFe_2O_4 hollow spheres

机译：使用3D NiFe_2O_4空心球的微流水分裂池

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The present research work shows a simple method to synthesize 3D NiFe2O4 hollow spheres by a hydrothermal route and its application as catalyst for water splitting in an alkaline microfluidic system. The NiFe2O4 was developed by a simple mechanism from the urea hydrolysis reaction and later subjected to a hydrothermal process to carry out a single-step synthesis, obtaining novel 3D hollow nanospheres with doubles, triples and quadruples shells. 3D NiFe2O4 with large surface area and stability showed a catalytic activity for the oxygen evolution reaction (OER) comparable with the commercial material commonly employed IrO2. The NiFe(2)O(4-)based material was used as an anode and cathode in a microfluidic water splitting device, where the H-2 production was 2.5 and 2.7 x 10(-5) mg s(-1) for 3D NiFe2O4 hollow spheres and IrO2-Pt/C, respectively.

机译：本研究工作表明了一种简单的通过水热途径合成3D NiFe2O4空心球的方法，并将其用作碱性微流体系统中水分解的催化剂。 NiFe2O4是通过尿素水解反应的简单机理开发的，然后经过水热过程进行一步合成，从而获得了具有双壳，三壳和四壳的新型3D空心纳米球。 3D NiFe2O4具有较大的表面积和稳定性，与常用的工业IrO2相比，对氧释放反应（OER）具有催化活性。基于NiFe（2）O（4-）的材料在微流水分解装置中用作阳极和阴极，其中3D的H-2生成量为2.5和2.7 x 10（-5）mg s（-1） NiFe2O4空心球和IrO2-Pt / C。

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来源
《Journal of power sources》 |2019年第1期|505-513|共9页
作者
Martinez-Lazaro A.; Rico-Zavala A.; Espinosa-Lagunes F. I.; Torres-Gonzalez Julieta; Alvarez-Contreras L.; Gurrola M. P.; Arriaga L. G.; Ledesma-Garcia J.; Ortiz-Ortega E.;
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作者单位

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

Ctr Invest Mat Avanzados, Complejo Ind Chihuahua, Chihuahua 31109, CI, Mexico;

Univ Autonoma Queretaro, Fac Ingn, Div Invest & Posgrad, Santiago De Queretaro 76010, Mexico|CONACYT TECNM Inst Tecnol Chetumal, Ave Instugentes 330, Chetmal 77013, Quintana Roo, Mexico;

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

Univ Autonoma Queretaro, Fac Ingn, Div Invest & Posgrad, Santiago De Queretaro 76010, Mexico;

Ctr Invest & Desarrollo Tecnol Electroquim, Santiago De Queretaro 76703, Mexico;

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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
Microfluidic electrolyser system; Oxygen evolution reaction; PGM-Free catalyst; Nickel ferrite hollow spheres;

机译：微流控电解槽;制氧反应;无PGM催化剂;镍铁氧体空心球;

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Microfluidic water splitting cell using 3D NiFe_2O_4 hollow spheres

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