Electrocatalytic water oxidation at amorphous trimetallic oxides based on FeCoNiOx

Abu Sayeed Md; OMullane Anthony P.

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Electrocatalytic water oxidation at amorphous trimetallic oxides based on FeCoNiOx

机译：基于Feconiox的无定形三种子氧化物的电催化水氧化

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Recently there has been a noticeable shift towards developing amorphous bimetallic or trimetallic oxides for electrochemical water splitting. However, the fabrication of a homogeneous mixed metal oxide electrocatalyst suitable for water electrolysis is not a facile process. Here we introduce an electrochemical synthesis method that is rapid, simple and performed under ambient conditions. Using this approach it is possible to create a catalytically active FeCoNiOxHy amorphous material whose activity is dependent on the nature of the underlying support. The trimetallic oxide is significantly more active than any single or bimetallic oxide combination for the OER. This amorphous catalyst demonstrates not only excellent activity but also stability over extended time periods.

机译：最近朝向开发无定形双金属或微三相氧化物进行电化学水分裂的显着变化。然而，适用于水电解的均匀混合金属氧化物电催化剂的制备不是容易的过程。在这里，我们介绍一种快速，简单，在环境条件下进行的电化学合成方法。使用这种方法，可以产生一种催化活性的Feconioxhy非晶材料，其活性取决于潜在载体的性质。三种氧化物比伊尔的任何单个或双金属氧化物组合显着更活跃。这种非晶催化剂不仅表现出优异的活性，而且还在延长时间内稳定。

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《RSC Advances》 |2017年第68期|共7页
作者
Abu Sayeed Md; OMullane Anthony P.;
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Queensland Univ Technol Sch Chem Phys &

Mech Engn GPO Box 2434 Brisbane Qld 4001 Australia;

Queensland Univ Technol Sch Chem Phys &

Mech Engn GPO Box 2434 Brisbane Qld 4001 Australia;

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正文语种 eng
中图分类化学;
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1. Electrocatalytic water oxidation at amorphous trimetallic oxides based on FeCoNiOx [J] . Abu Sayeed Md, OMullane Anthony P. RSC Advances . 2017,第68期

机译：基于Feconiox的无定形三种子氧化物的电催化水氧化
2. Direct Deposition of Amorphous Cobalt–Vanadium Mixed Oxide Films for Electrocatalytic Water Oxidation [J] . Muhammad Ali Ehsan, Abbas Saeed Hakeem, Muhammad Sharif, ACS Omega . 2019,第7期

机译：直接沉积非晶态钴钒混合氧化物膜用于电催化水氧化
3. Precipitating Metal Nitrate Deposition of Amorphous Metal Oxyhydroxide Electrodes Containing Ni, Fe, and Co for Electrocatalytic Water Oxidation [J] . YoungKyeong Kim, Jin Hyun Kim, Yim Hyun Jo, ACS catalysis . 2019,第10期

机译：沉淀金属硝酸盐沉积含Ni，Fe，Fe和Co的无定形金属羟基氧化物电极，用于电催化水氧化
4. Incorporating Co and Y into Amorphous Ni-Based Alloys to Stabilize Hydrous p-NiOOH for Efficient Electrocatalytic Water Oxidation [C] . Kevin M Cole, Donald W. Kirk, Steven J. Thorpe Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：将Co和Y掺入无定形Ni基合金以稳定含水P-NiOOH的高效电催化水氧化
5. Carbon dioxide sensing mechanisms of an electrocatalytic sensor/cell based on a tungsten stabilized bismuth oxide solid electrolyte. [D] . Shoemaker, Erika Leigh. 1999

机译：基于钨稳定的氧化铋固体电解质的电催化传感器/电池的二氧化碳传感机制。
6. Direct Deposition of Amorphous Cobalt–VanadiumMixed Oxide Films for Electrocatalytic Water Oxidation [O] . MuhammadAli Ehsan, Abbas Saeed Hakeem, Muhammad Sharif, 2019

机译：非晶态钴-钒的直接沉积用于电催化水氧化的混合氧化物薄膜
7. Electrocatalytic water oxidation at amorphous trimetallic oxides based on FeCoNiOx [O] . Sayeed Md Abu, OMullane Anthony P. 2017

机译：基于FeCoNiOx的非晶态三金属氧化物上的电催化水氧化
8. Redox Properties of the Water Oxidation Catalyst (bpy)2(H2O)RuORu(H2O)2(4+) in Thin Polymeric Films. Electrocatalytic Oxidation of C1- to C12 [R] . Vining, W. J., Meyer, T. J. 1986

机译：薄聚合物薄膜中水氧化催化剂（bpy）2（H2O）RuORu（H2O）2（4+）的氧化还原性质。 C1-至C12的电催化氧化

Electrocatalytic water oxidation at amorphous trimetallic oxides based on FeCoNiOx

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