1) regenerative chemosensor
"潜荧光"传感分子
2) molecular fluorescence sensor
分子荧光传感器
3) fluorescence sensor
荧光传感
1.
The highly effective fluorescence sensor behavior of dehydrocorydaline by cucurbit[7]uril has been studied.
研究了葫芦[7]脲和去氢紫堇碱包结键合的荧光传感行为,主体分子的加入导致客体分子在水溶液中的荧光强度急剧上升。
4) zinc fluorescent chemosensor
锌离子荧光传感器
5) fluorescent sensor
荧光传感器
1.
The methods for synthesizing 1,8-naphthalimide and its derivatives were narrated in brief, and their application progresses in the fields of fluorescent brightening agent, fluorescent dye and other functional materials in recent years were emphatically introduced, especially the application in the fields of biomedical material and fluorescent sensor.
简述了1,8-萘酰亚胺及其衍生物的合成方法,着重介绍其近年在荧光增白剂、荧光染料和其他功能材料上的应用研究进展,特别是在生物医用材料和荧光传感器等领域的应用。
2.
As a link of material science and analysis chemistry,the study in fluorescent sensor and novel sensor material has received a growing attention with the rapid development of cross subject.
近年来随着交叉学科的迅速发展,荧光传感器及其传感新材料作为材料科学和分析化学的结合点备受关注。
3.
Molecular-based fluorescent sensors have received considerable attentions due to their advantages such as high sensitivities and feasibilities, and have been rapidly developed in recent years.
分子荧光传感器以其灵敏度高、使用方便等优点备受人们的关注,近年来得到了迅速的发展。
6) fluorescence sensor
荧光传感器
1.
There has been considerable interest in studying fluorescence sensors because they can be applied to a wide range of analytical tasks, such as clinical diagnosis, bioassay, environmental monitoring, etc.
荧光传感器在临床诊断、生物分析、环境监测等领域具有广泛的应用前景,因而吸引了众多研究者的兴趣。
2.
There has been considerable interest in studying fluorescence sensors and probes, because they can be applied to a wide range of analytical tasks, such as clinical diagnosis, bioassay, environmental monitoring, etc.
荧光传感器和探针在临床诊断、生物分析、环境监测等领域具有广泛的应用前景,因而引起了众多研究者的兴趣。
3.
Therefore,it is a novel highly selective fluorescence sensor,too.
所以,它又是一种对Fe3+具有高选择性识别的荧光传感器。
补充资料:有机高分子传感器
用有机高分子材料作为敏感材料的传感器。有机高分子材料是60年代发展起来的新型材料,这类材料分别具有电子、光学、热学、机械、化学和生物学特性,扩大了传感器技术的领域。在电子功能高分子材料方面以力敏、热敏、光敏等元件发展最快。例如聚偏氟乙烯及其共聚物系列材料具有优良的抗辐射性、电绝缘性、化学稳定性、热稳定性,经过拉伸、极化、镀电极等处理后加工成薄膜,表现出有强压电效应、电致伸缩效应和热释电效应,在传感器方面的应用前景颇引人注目。人们已研制出立体声耳机、传声器、高频扬声器、加速度计、水听器、声纳探测器、海洋监测装置、海岸警戒装置、水下声成像、超声无损探伤、声表面波、延迟线、无触点开关、键盘开关、光纤开关、红外探测器、入侵报警器和印刷传感器等。在医疗器械中则有心音计、胎音计、 脉搏计、人体组织的超声断层实时显像设备、A型超声扫描设备、血流量检测器、假肢传感器、盲人触觉传感器等产品。又如三甘氨酸硫酸盐有机热释电晶体薄膜有很高的热释电系数,是一种非接触式的新型热电敏感材料,可将热辐射直接转换成电信号。这种传感器响应频率高、速度快、频带宽,不受辐射波长限制,在气体分析、遥测、遥感等方面有独特优越性。
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