1) Pressure sensing film
力敏感膜
2) thin-film force sensor
薄膜力敏传感器
3) sensitive membrane
敏感膜
1.
Using silicotungstic acid and phosphomolybdic acid as active material, a medical sensitive membrane is made by applying chitosan as membranous material instead of traditional PVC.
以硅钨酸、磷钼酸为电活性物质,用壳聚糖代替传统的聚氯乙烯(PCV)作为成膜物质,制成药物敏感膜。
2.
Some molecular probes were added into the polymer and plasticizer which as a sensitive membrane used in fiber optic chemical sensor that can be measure some organic and inorganic compounds based on fluorescence quenching.
将芘、芘丁酸、对硝基苯芘丁酸酯、罗丹明123和乙二胺基萘磺酸钠等分子探针分别加入适当的固相支持剂和增塑稳定剂,制成五种敏感膜。
3.
For the special characteristics,kinds of polymers are applied to pH-ISFET,mainly in four aspects,served as pH sensitive membrane,pH passive membrane,structural materials and encapsulating material.
聚合物具有许多无机物没有的特性,已被越来越多地应用到pH-ISFET中,主要体现在4个方面,即pH敏感膜、pH钝化膜、结构材料及封装材料。
4) sensing film
敏感膜
1.
The design of high Q and low insertion loss(IL)SAW oscillator,research of chemical sensing film and process of film are detailed expatiated.
详细阐述了高Q低插损SAW振荡电路的设计、敏感膜材料和成膜技术的研究进展,指出了SAW化学战剂传感器发展的趋势。
2.
Based on the coupled-mode theory,the complex characteristic equation of long-period fiber gratings coated with metal film and sensing film is set up.
采用严格的耦合模理论,建立了镀金属膜和敏感膜的两层膜系长周期光纤光栅复特征方程,用微扰法对复数超越特征方程进行求解,结果和文献[5]给出的数据相符。
5) sensitive film
敏感膜
1.
NO gas sensitive effect of long period fiber grating coated with sensitive film;
镀有敏感膜的长周期光纤光栅NO气体传感特性
2.
The Rclations between output characteristics of silicon nitride sensitive film pH-ISFET andhydrolysis layer are measured.
水化层增长速率较高的敏感膜具有较大的时漂速率;时漂速率为一常数,与浸泡溶液无关。
3.
The progresses of SAW gas sensors are described on the structure of the surface acoustic wave and the sensitive films.
主要从声表面波(SAW)结构和敏感膜的角度综述了SAW气体传感器的研究现状。
6) sensitive layer
敏感膜
1.
On the basis of introducing the application and working principle of the sensor based on ISFET(ion sensitive field effect transistor),the development status of ISFET-sensor is reviewed, which included the sensitive layer, manufacture methods, compatibility with CMOS, integrated read out circuits, multi-sensor integration, etc.
在介绍离子敏场效应晶体管(ISFET)传感器的应用和基本工作原理的基础上,阐述了集成化ISFET传感器的研究现状,包括ISFET敏感膜及其制造工艺与CMOS兼容性研究、集成化读出电路、多传感器集成等方面。
补充资料:电解食盐水溶液离子膜电解槽所用的膜材料之一
分子式:
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条