氧化镍-镍混合纳米阵列的表面工程作为用于高效水氧化和尿素氧化的通用催化剂

Surface Engineering of a Nickel Oxide-Nickel Hybrid Nanoarray as a Versatile Catalyst for Both Superior Water and Urea Oxidation.

作者信息

Yue Zhihao, Zhu Wenxin, Li Yuanzhen, Wei Ziyi, Hu Na, Suo Yourui, Wang Jianlong

机构信息

College of Food Science and Engineering , Northwest A&F University , 22 Xinong Road , Yangling 712100 , Shaanxi , China.

Qinghai Key Laboratory of Qinghai-Tibet Plateau Biological Resources, Northwest Institute of Plateau Biology , Chinese Academy of Sciences , 23 Xinning Road , Xining 810008 , Qinghai , China.

出版信息

Inorg Chem. 2018 Apr 16;57(8):4693-4698. doi: 10.1021/acs.inorgchem.8b00411. Epub 2018 Apr 3.

DOI:10.1021/acs.inorgchem.8b00411

PMID:29613791

Abstract

Developing efficient and low-cost oxygen evolution reaction (OER) electrodes is a pressing but still challenging task for energy conversion technologies such as water electrolysis, regenerative fuel cells, and rechargeable metal-air batteries. Hence, this study reports that a nickel oxide-nickel hybrid nanoarray on nickel foam (NiO-Ni/NF) could act as a versatile anode for superior water and urea oxidation. Impressively, this anode could attain high current densities of 50 and 100 mA cm at extremely low overpotentials of 292 and 323 mV for OER, respectively. Besides, this electrode also shows excellent activity for urea oxidation with the need for just 0.28 and 0.36 V (vs SCE) to attain 10 and 100 mA cm in 1.0 M KOH with 0.33 M urea, respectively. The enhanced oxidation performance should be due to the synergistic effect of NiO and Ni, improved conductivity, and enlarged active surface area.

摘要

开发高效且低成本的析氧反应（OER）电极对于水电解、再生燃料电池和可充电金属空气电池等能量转换技术而言是一项紧迫但仍具挑战性的任务。因此，本研究报告称，泡沫镍上的氧化镍-镍混合纳米阵列（NiO-Ni/NF）可作为一种通用阳极，用于高效的水氧化和尿素氧化。令人印象深刻的是，该阳极在OER的极低过电位（分别为292和323 mV）下可分别达到50和100 mA cm²的高电流密度。此外，该电极对尿素氧化也表现出优异的活性，在含有0.33 M尿素的1.0 M KOH溶液中，分别仅需0.28和0.36 V（相对于饱和甘汞电极）即可达到10和100 mA cm²。氧化性能的增强应归因于NiO和Ni的协同效应、提高的导电性以及增大的活性表面积。

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氧化镍-镍混合纳米阵列的表面工程作为用于高效水氧化和尿素氧化的通用催化剂

Surface Engineering of a Nickel Oxide-Nickel Hybrid Nanoarray as a Versatile Catalyst for Both Superior Water and Urea Oxidation.

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