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Influence of fuel to oxidizer ratio on gas sensing characteristics of ZnFe2O4 nanoparticles

机译：燃料氧化剂比对ZnFe 2 O 4 纳米颗粒气敏特性的影响

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Highly porous zinc ferrite (ZnFeO4) nano-size powders are synthesized by varying fuel to oxidizer ratio. The metal nitrates are used as oxidizers while glycine is used as a fuel. The synthesis of material is carried out using an auto-combustion method. It is observed that the enhancement of magnetization occur with the enhancement of `Fuel to Oxidizer' ratio i.e. Glycine to metal Nitrate (G/N) ratio. The structural, morphological, and magnetic features of samples are studied using XRD, SEM, EDAX, BET and VSM techniques. At the microscopic level, the materials exhibit a formation of spongelike structure containing nano-size particles. The XRD measurements confirm the formation of single phase spinel structure of zinc ferrite (ZnFeO). As a case study, the response of materials to ethanol gas is studied. It is observed that higher G/N ratio lead to lowering of gas sensitivity as well as operating temperature. The results are discussed in terms of reactions of surface oxygen with ethanol gas.

机译：通过改变燃料与氧化剂的比例来合成高度多孔的铁氧体锌（ZnFeO4）纳米级粉末。金属硝酸盐用作氧化剂，甘氨酸用作燃料。使用自动燃烧方法进行材料的合成。观察到，随着“燃料与氧化剂”之比即甘氨酸与金属硝酸盐（G / N）之比的增加，发生了磁化强度的提高。使用XRD，SEM，EDAX，BET和VSM技术研究了样品的结构，形态和磁性特征。在微观水平上，材料表现出包含纳米级颗粒的海绵状结构的形成。 XRD测量证实了铁酸锌（ZnFeO）的单相尖晶石结构的形成。作为案例研究，研究了材料对乙醇气体的响应。观察到较高的G / N比导致气体敏感性以及操作温度的降低。根据表面氧与乙醇气体的反应讨论了结果。

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来源
《2nd International Symposium on Physics and Technology of Sensors 》|2015年|147-153|共7页
会议地点 Pune(IN)
作者
Godbole R.V.; Godbole V.P.; Rao Pratibha; Alegaokar P.S.; Bhagwat Sunita;
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作者单位

Dept. of Phys., Abasaheb Garware Coll., Pune, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
VSM; auto-combustion; ferrites; porosity; sensors;

机译：VSM;自动燃烧;铁氧体;孔隙率;传感器;

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Influence of fuel to oxidizer ratio on gas sensing characteristics of ZnFe2O4 nanoparticles

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