Fe_3O_4-mediated dielectric sensor using metamaterial-inspired resonators for the NO_2 sensing

Vivek Kale; Chetan Chavan; Dhanashree Sable; K. G. Girija; Shaibal Banerjee; S. N. Kale

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Fe_3O_4-mediated dielectric sensor using metamaterial-inspired resonators for the NO_2 sensing

机译：FE_3O_4介导的介电传感器，使用超材料启动谐振器用于NO_2感测

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Detection of low concentrations of gaseous explosive formulations with NOx derivatives has been a demanding challenge, specifically because the hazard is colossal. Change in the dielectric constant of NO_2-purged-Fe_3O_4 nanoparticles is sensed using metamaterial-inspired sensor. The interaction of NO_2 with Fe_3O_4 nanoparticles steadily changes the dielectric properties of these particles, which are sensed by unit cell of complementary split-ring resonator with resonant frequency of 428 MHz. It shows a gradual change in its resonant frequency along with a new signature evolving around 300 MHz, as the incident NOx concentration changes from 0 to 106 ppm. Highly reliable, re-usable, and selective sensor is projected.

机译：用NOx衍生物检测低浓度的气态爆炸制剂是一种苛刻的挑战，特别是因为危害是巨大的。使用超材料启发传感器感测NO_2纯-FE_3O_4纳米颗粒的介电常数的变化。 NO_2与FE_3O_4纳米颗粒的相互作用稳定地改变了这些颗粒的介电性质，其被互补分体环谐振器的单位单元感测，具有428MHz的谐振频率。它显示其谐振频率的逐渐变化以及新的签名，随着约300 MHz的新签名，因为入射NOx浓度从0到106ppm变化。高度可靠，可重复使用和选择性传感器。

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来源
《Applied Physics》 |2020年第9期|702.1-702.8|共8页
作者
Vivek Kale; Chetan Chavan; Dhanashree Sable; K. G. Girija; Shaibal Banerjee; S. N. Kale;
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作者单位

Department of Applied Physics Defence Institute of Advanced Technology Pune 411025 India;

Department of Applied Physics Defence Institute of Advanced Technology Pune 411025 India;

Department of Applied Physics Defence Institute of Advanced Technology Pune 411025 India;

Chemistry Division Bhabha Atomic Research Centre Mumbai 400085 India;

Department of Applied Chemistry Defence Institute of Advanced Technology Pune 411025 India;

Department of Applied Physics Defence Institute of Advanced Technology Pune 411025 India;

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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
Iron oxide nanoparticles; Sensor; Dielectric constant; NOx sensing;

机译：氧化铁纳米粒子;传感器;介电常数;nox敏感;

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机译：基于超材料激发的谐振器的微波传感器传感策略综述：用于健康诊断，电信和太空应用的介电特性，位移和角速度测量
2. Metamaterial-inspired rotation sensor based on complementary single split-ring resonator (CSSRR) [J] . Fang Rao, Zetai Yu, Xiaojun Huang, Journal of Electromagnetic Waves and Applications . 2018,第13a15期

机译：基于互补的单分裂环谐振器（CSSRR）的超材料启发旋转传感器
3. Novel High-Selectivity NO_2 Sensor for Sensing Low-Level NO_2 [J] . Weizhen Xiong, Girish M. Kale Electrochemical and solid-state letters . 2005,第6期

机译：新型高选择性NO_2传感器，用于检测低水平的NO_2
4. Metamaterial-inspired sensor based on a complementary asymmetric double-split resonator [C] . Xi Ming Li, Jiang Yu, Peng Li, 2016 IEEE International Conference on Electronic Information and Communication Technology . 2016

机译：基于互补非对称双分裂谐振器的超材料启发传感器
5. Dielectric micro-resonator-based opto-mechanical systems for sensing applications. [D] . Ali, Amir Roushdy. 2015

机译：基于介电微谐振器的光电系统，用于传感应用。
6. Modified Split Ring Resonators Sensor for Accurate Complex Permittivity Measurements of Solid Dielectrics [O] . Amer Abbood al-Behadili, Iulia Andreea Mocanu, Norocel Codreanu, 2020

机译：改进的分体环谐振器传感器用于精确复杂的固体电介质介电常数测量
7. Application of metamaterial-inspired resonators in compact microwave displacement sensors [O] . Ali K. Horestani, Zahra Shaterian, Derek Abbott, 2014

机译：超材料激励谐振器在紧凑型微波位移传感器中的应用

Fe_3O_4-mediated dielectric sensor using metamaterial-inspired resonators for the NO_2 sensing

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