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1)  gas-sensing material
气敏材料
1.
Development of Fe_2O_3 gas-sensing material;
Fe_2O_3气敏材料研究进展
2.
Study on catalytic property and gas sensing mechanism of indium oxide-based gas-sensing materials;
In_2O_3基气敏材料的催化性能及敏感机理研究
3.
Preparation of ZnO gas-sensing material by nucleation/crystallization separation method
成核/晶化隔离法制备ZnO气敏材料
2)  gas sensing materials
气敏材料
1.
Application of recent test technology in gas sensing materials;
近代测试技术在气敏材料研究中的应用
2.
Progress in semiconductor complex oxides gas sensing materials;
半导体复合氧化物气敏材料研究进展
3.
The preparation methods and influencing factors of intrinsically conducting polymers(ICPs) as gas sensing materials were reviewed.
综述了本征型导电聚合物(ICPs)基气敏材料的制备方法及影响其气敏性能的各种因素。
3)  gas sensing material
气敏材料
1.
In order to summarize new research development on prepara-tion technologies of nano-sized α-Fe2O3 gas powder and film,advances in the study on preparation technologies of α-Fe2O3 gas sensing material were reviewed.
本文中总结了纳米α-Fe2O3气敏粉体与薄膜制备技术的最新研究进展,综述了近几年气敏型α-Fe2O3纳米粉体及薄膜的制备技术,就灵敏度低、选择性差、性能不够稳定等α-Fe2O3气敏材料及元件研究中存在的问题进行了探讨,指出必须在材料制备过程中通过控制粉体颗粒大小、掺杂、采用双层膜技术等改善其微观结构,才能提高材料的气敏性能。
2.
Aimed at some disadvantages which occurred in gas sensing material for CO based on SnO2 generally such as high temperature of work and wasteful electricity, this article put forward several methods to reduce the work temperature of the gas sensing material: enlarging specific surface area, adding some suitable impurities and catalyzer.
针对SnO_2基CO气敏材料工作温度较高、能耗较大的缺点,提出了降低其工作温度的几种方法:扩大比表面积、掺入适当的杂质和添加适当的催化剂。
3.
The research progress in recent years of preparation (including effective factors), the technology of agglomeration prevention,the effect of dopant (including the mechanism of gas sensitivity) of α Fe 2O 3 matrix gas sensing material is reviewed.
本文综合介绍了 α-Fe2 O3气敏材料近年来在制备方法 (含影响因素 )、防团聚技术、掺杂效应 (含气敏机理 )上的研究新进展。
4)  gas sensitive material
气敏材料
1.
The nanameter gas sensitive material can improve the sensitivity, selectivity, and the stability of the gas sensitive material.
纳米气敏材料的研究对提高气敏材料的灵敏度、选择性和长期稳定性,以及如何降低工作温度和缩短响应温度时间等方面起着重大的作用。
2.
The nanometer technology for gas sensitive material can enhance the sensitivity, selectivity and stability of gas sensitive materials.
纳米技术对提高气敏材料的灵敏度、选择性和长期稳定性有重要的作用,并且能降低工作温度和缩短温度的响应时间。
3.
s The preparation method of gas sensitive material SnO2 obtained by adding ammonia water to SnCl4 aqueous solution is studied.
对四氯化锡加氨水中和制备二氧化锡气敏材料的方法进行了考察。
5)  gas sensitive materials
气敏材料
1.
Preparing nanometer gas sensitive materials with microemulsion reactor is a new method for nanometer materials.
基于微乳液纳米反应器制备气敏材料是制备纳米材料的新方法。
2.
In this paper,we developed a new method to test the dynamic characteristics of gas sensitive materials, and could get unique curve for differ.
气敏材料的气敏特性来源于气体在材料表面的吸附和表面反应过程。
3.
A new novel organic gas sensitive materials,substituted rare earth double phthalocyanine,has better performance of dissolving and film forming,has been preparated in this paper.
制备了一种新型的有机气敏材料—取代双酞菁镧(Sub-Re(Pc)2),该材料具有优良的溶解性能和成膜性能,无需任何分子支撑剂即可较好地在纯水亚相上形成LB膜。
6)  H_2S gas sensing materials
H_2S气敏材料
补充资料:气敏效应
分子式:
CAS号:

性质:又称嗅敏效应。某些半导材料表面吸附(有物理吸附,化学吸附或和物理化学吸附)某种气体引起表面能态发生改变,从而导致材料电导率变化的现象。利用此效应可制成气敏电阻器。通常可分为电导式和电化式两类。前者是利用气体吸附导致感知母体导电率发生变化,后者是利用固体电解质离子选择渗透性。气敏电阻器材料主要有二氧化锡,氧化铁系,五氧化二钒系、二氧化锆系,氧化镍系,氧化钴系及稀土过渡金属氧化物系,如Ln(Ni,Co)O3等。气敏电阻器具有灵敏度高、工作温度低、结构简单、使用安全和成本低等优点。可用于氢、乙醇、一氧化碳,城市煤气,石油液化气,氟里昂气,钢水中氧气检测等许多场合。对于各种管道和密封系统的探漏、环境污染监测,安全防火和自动控制等也有广泛应用。

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