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1·This job greatly extended the use of NR in the biosensors.

此工作大大拓展了中性红在生物传感器中的应用。

2·Biosensors provide more rapid speed and more advantageous.

生物传感器法更方便、快捷。

3·Biosensors attached to the body send data by wire or radio.

附在身体里的生物传感器，传送数据通过电信或无线电波。

4·The paper introduces briefly the working principle of biosensors.

简要介绍了生物传感器的基本原理。

5·The nanowires could also be used to power biosensors implanted under the skin.

而且还可以为植入皮肤中的生物传感器发电。 这听起来像极了Crysis游戏里的某些桥段....

6·It usually composes of wearable biosensors, a handheld PC, and an expert system.

该系统通常由无线的小型传感器、手持单元和专家系统构成。

7·It has presented the basic principles, characteristics of Biosensors in this paper.

简述了生物传感器的基本工作原理、构造特点。

8·The response time of biosensors might be shorten, and the sensitivity was improved.

该设计能缩短响应时间，提高生物传感器的检测灵敏度。

9·Furthermore, imaging surface plasmon resonance for biosensors analysis is established.

进而建立表面等离激元共振生物传感成像。

10·Finally, the development tendency and prospect of biosensors in the future are predicted.

从应用方面，展望了生物传感器的发展前景。

生物传感器

1·They needed an analytical method to quantify AHL levels in clinical samples, so they turned to whole-cell biosensors.

他们需要一个分析的方法来定量在临床病例的AHL水平，所以他们致力于全细胞生物传感器。

2·In addition, the unique chemical, physical and biological properties of PNAs have been exploited to produce powerful biomolecular tools, antisense and antigene agents, molecular probes and biosensors.

此外，鉴于肽核酸独特的理化和生物学性能，人们正尝试将其用于生物分子工具、反义和反基因制剂、分子探针和生物传感器。

3·Present article deals with the various methods of food pathogen detection with bio-molecular electronic techniques such as biosensors, microarrays, electronic nose, and Nano-devices.

介绍了几种生物分子技术如生物传感器、微排列、 电子鼻子和纳米装置用于食品中有害微生物的检测。

4·The recent research progress in the construction and application of biosensors based on chitosan-gold nanoparticles is reviewed.

对近年来基于壳聚糖-纳米金粒子的生物传感器的构造与应用研究进行了回顾与总结。

5·Electrochemical biosensors have been widely applied because of their high sensitivity, simplicity, inexpensive, amenable miniaturization and operating convenience.

电化学生物传感器因其高灵敏度、结构简单、造价低廉、操作方便及易微型化等特点而被广泛接受。