Highly Sensitive Hydrazine Chemical Sensor Based on Nickel Doped Antimony Oxide Nanoellipsoids Modified Screen-Printed Electrode

Khatoon Zeenat; Athar Taimur; Fouad H.; Umar A.; Ansari Z. A.; Ansari S. G.

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Highly Sensitive Hydrazine Chemical Sensor Based on Nickel Doped Antimony Oxide Nanoellipsoids Modified Screen-Printed Electrode

机译：镍掺杂氧化锑纳米椭球修饰丝网印刷电极的高灵敏度肼化学传感器

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Herein, we report the successful synthesis, characterization and hydrazine chemical sensing application of nickel doped antimony oxide (NiSb2O4) nanoellipsoids. The nanoellipsoids were prepared by soft chemical approach and characterized by different techniques. The detailed characterizations revealed that the nanoellipsoids were grown in high density and possessing well-crystallinity with tetragonal crystal structure of NiSb2O4. For application point of view, the prepared nanoellipsoids were used to develop robust, reproducible and highly sensitive hydrazine chemical sensor based on modified screen-printed electrode (SPE). The fabricated electrochemical hydrazine sensor exhibited ultra-high sensitivity of 0.21 mu A/ppb up to 10 ppm. To the best of our knowledge, such sensor using composite metal oxide is being reported for the first time in this paper.

机译：在本文中，我们报告了镍掺杂氧化锑（NiSb2O4）纳米椭圆体的成功合成，表征和肼化学传感应用。通过软化学方法制备纳米椭球，并通过不同技术对其进行表征。详细的表征表明，纳米椭圆体以高密度生长并且具有良好的结晶度，并且具有NiSb 2 O 4的四方晶体结构。从应用的角度来看，所制备的纳米椭球体用于开发基于改良的丝网印刷电极（SPE）的坚固，可重现和高度灵敏的肼化学传感器。制成的电化学肼传感器在高达10 ppm的条件下显示出0.21μA / ppb的超高灵敏度。据我们所知，本文首次报道了使用复合金属氧化物的传感器。

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《Nanoscience and Nanotechnology Letters》 |2016年第7期|共6页
作者
Khatoon Zeenat; Athar Taimur; Fouad H.; Umar A.; Ansari Z. A.; Ansari S. G.;
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正文语种 eng
中图分类计量学;
关键词
NiSb2O4; Nanoellipsoids; Hydrazine; Chemical Sensor; Screen-Printed Electrode;

机译：NiSb2O4;纳米椭球体;肼;化学传感器;丝网印刷电极;

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1. Highly Sensitive Hydrazine Chemical Sensor Based on Nickel Doped Antimony Oxide Nanoellipsoids Modified Screen-Printed Electrode [J] . Khatoon Zeenat, Athar Taimur, Fouad H., Nanoscience and Nanotechnology Letters . 2016,第7期

机译：镍掺杂氧化锑纳米椭球修饰丝网印刷电极的高灵敏度肼化学传感器
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Highly Sensitive Hydrazine Chemical Sensor Based on Nickel Doped Antimony Oxide Nanoellipsoids Modified Screen-Printed Electrode

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