Mixed Ni–Cu-oxide nanowire array on conductive substrate and its application as enzyme-free glucose sensor

Jian Jiang; JianHui Zhu; Jinping Liu; Ruimin Ding; Xintang Huang

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Mixed Ni–Cu-oxide nanowire array on conductive substrate and its application as enzyme-free glucose sensor

机译：导电基底上混合的Ni-Cu-氧化物纳米线阵列及其在无酶葡萄糖传感器中的应用

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We report the synthesis of mixed Nia€“Cu-oxide nanowire array on flexible metal substrate by a hydrothermal process and subsequent decomposition-related annealing treatment. Every single nanowire is a particles matrix with embedded NiO and CuO grains. To the best of our knowledge, this is the first report that mixed oxides exist in this aligned architecture. As an example of the functional properties of the compound materials, the mixed Nia€“Cu-oxide nanowire array is investigated as the additive-free electrode for enzyme-free glucose sensor. Compared with previously reported Ni or Cu-contained biosensors, this Nia€“Cua€“oxide array electrode possesses higher performance. The detection limit can be as low as 0.1 ??M, linear range as wide as 0.1a€“1200 ??M and sensitivity as high as a??1600 ??A mMa?’1 cma?’2. Besides the above, other excellent properties such as anti-interferences and long-term stability, are demonstrated as well. All these improvements can be attributed to the synergetic effect between the mixed oxide grains and the unique 1D array feature.

机译：我们报告了通过水热工艺以及随后的分解相关退火处理，在柔性金属基板上合成了混合Nia·Cu-氧化物纳米线阵列。每条纳米线都是具有嵌入的NiO和CuO晶粒的颗粒基质。据我们所知，这是第一个关于混合氧化物存在于这种排列结构中的报告。作为复合材料功能特性的一个例子，研究了混合Nia·Cu-氧化物纳米线阵列作为无酶葡萄糖传感器的无添加剂电极。与以前报道的含Ni或Cu的生物传感器相比，该Nia“ Cua”氧化物阵列电极具有更高的性能。检出限可低至0.1ΩM，线性范围可至0.1a〜1200ΩM，灵敏度可高达1600ΩAmMa？1 cma？2。除上述之外，还展示了其他优异的性能，例如抗干扰性和长期稳定性。所有这些改进都可以归因于混合氧化物颗粒与独特的一维阵列特征之间的协同效应。

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《Analytical methods》 |2012年第12期|共6页
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Jian Jiang; JianHui Zhu; Jinping Liu; Ruimin Ding; Xintang Huang;
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1. Mixed Ni-Cu-oxide nanowire array on conductive substrate and its application as enzyme-free glucose sensor [J] . Ruimin Ding, Jinping Liu, Jian Jiang Analytical methods . 2012,第12期

机译：导电基板上的混合镍-铜-氧化物-纳米线阵列及其在无酶葡萄糖传感器中的应用
2. Phase separation induced rhizobia-like Ni nanoparticles and TiO_2 nanowires composite arrays for enzyme-free glucose sensor [J] . Jiangwen Xu, Na Xu, Xuming Zhang, Sensors and Actuators . 2017,第juna期

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3. Carbon cloth-supported nanorod-like conductive Ni/Co bimetal MOF: A stable and high-performance enzyme-free electrochemical sensor for determination of glucose in serum and beverage [J] . Xu Zhihao, Wang Qinzhi, Hui Zhangsun, Food Chemistry . 2021,第Jula1期

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4. Preparation, Characterization and Applications of Enzyme-Free Glucose Sensors [C] . Hong Jing-chao, Gu Qin International Conference on Material Engineering and Application . 2017

机译：无酶葡萄糖传感器的制备，表征和应用
5. Synthesis, characterization and sensor applications of doped and mixed metal oxide nanowires. [D] . Li, Xiaopeng. 2011

机译：掺杂和混合金属氧化物纳米线的合成，表征和传感器应用。
6. Ni-Co bimetal nanowires filled multiwalled carbon nanotubes for the highly sensitive and selective non-enzymatic glucose sensor applications [O] . K. Ramachandran, T. Raj kumar, K. Justice Babu, -1

机译：Ni-Co双金属纳米线填充了多壁碳纳米管用于高度敏感和选择性的非酶葡萄糖传感器应用
7. Ni-Co bimetal nanowires filled multiwalled carbon nanotubes for the highly sensitive and selective non-enzymatic glucose sensor applications [O] . K. Ramachandran, T. Raj kumar, K. Justice Babu, 2016

机译：Ni-Co双金属纳米线填充多壁碳纳米管，用于高敏感和选择性的非酶促葡萄糖传感器应用

Mixed Ni–Cu-oxide nanowire array on conductive substrate and its application as enzyme-free glucose sensor

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