生物医学传感器是将医学生理参数转换成电学量的装置,是构成现代医学仪器设备必不可少的关键部件。
Biomedical sensor is a key component to the modern medical instrument, which can convert physiological value to electrical signal.
目的就压电石英晶体传感器及其生物医学中的应用研究进展作了综述。
Objective Recent research of piezoelectric quartz crystal(PQC) sensor and its applications in biomedicine were summarized in this review.
本文分两部分概要地介绍了美国生物医学界应用MEMS(微电子机械系统)微传感器和MEMS 微系统的研究动向。
This article briefly introduces UK- research trends of MFMS ( microelectronics and machinery system) micro transducers and MEMS microsystems in American biomedical circle.
生物医学仪器,设备,传感器,人造组织,纳米技术。
Biomedical Instrumentation, Devices, Sensors, Artificial Organs, and Nano Technologies.
本文提出了一种应用于生物医学的小型化压力传感器的设计原理。
In this paper principles of a miniature pressure transducer for bio-medical applications is devised.
该传感器以镧系离子(铕离子)作为被检测物质的荧光标记物,根据铕离子的荧光特性,利用时间分辨检测技术进行生物医学检测。
By using lanthanide ions, especially europium ions as the fluorescent labels of samples, TFFBS can perform time resolved fluorescence detection from spectral characteristics of europium ions.
该器件结合的剪切应力 - 压力传感器设计为在各种侵入应用生物医学认可的材料的性能。
The device combines the performance of shear stress-pressure sensor design with biomedically-approved materials for use in a variety of invasive applications.
将神经元培养在半导体传感器芯片表面,构建出能够对细胞电生理特性进行长时程无损测量的神经细胞传感器,具有广阔的生物医学应用前景。
Neural cell based biosensors, with neurons cultured on the semiconductor sensor chip, are suitable for long-term and non-invasive measurement of cell electrophysiological properties.
将神经元培养在半导体传感器芯片表面,构建出能够对细胞电生理特性进行长时程无损测量的神经细胞传感器,具有广阔的生物医学应用前景。
Neural cell based biosensors, with neurons cultured on the semiconductor sensor chip, are suitable for long-term and non-invasive measurement of cell electrophysiological properties.
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