| 1. | 4 . to construct the lsaw biosensor detection system in liquid phase through a series of experiments . methods : 1 4 .通过实验研究,初步构建出新型漏声表面波生物传感器液相检测系统。 |
| 2. | Lsaw side seam is pulling up & looks considerably shorter than rsaw please ensure stitch tensions areset correctly & eliminate this problem 穿起后左侧的接缝提高了,看起来相比于右侧要短,请保证缝合的松紧度要设置正确,避免这一错误。 |
| 3. | 2 . to explore and optimize the experimental conditions , such as ionic concentration and ph value , which markedly influenced the detection system of the lsaw biosensor in liquid phase 2 .探索并优化液相中na +浓度、 ph值等多种因素对漏声表面波生物传感器液相检测系统的影响。 |
| 4. | 3 . to explore the effects of the different ionic concentrations and ph values on the detection system of the lsaw biosensor and evaluate the consistency of the two channels corresponding to the outer reaction . 4 3 .探索不同ph值和不同na +离子浓度对传感器的影响,探讨双通道传感器受外界条件影响的一致性及最佳反应条件的摸索。 |
| 5. | 3 . using scanning tunnel microscopy ( stm ) to observe microcosmic change between biomolecule and gold particle on the surface of lsaw biosensor during the process of probe immobilization and hybridization , also the naked gold membrane 3 .利用扫描隧道显微镜观察传感器裸金膜表面、探针固定、核酸杂交过程中生物分子与金颗粒之间的微观变化。 |
| 6. | Objectives : 1 . to build a dual delayed linear style of leaky surface acoustic wave ( lsaw ) biosensor including detection and reference sensor in one chip . three detecting methods including phase , frequency and delayed time were used and compared with each other 目的: 1 .制备检测和参比双延迟线型漏声表面波传感器,采用相位、频率及延迟时间等多种检测方法,并比较各方法之间的优缺点。 |
| 7. | Technology of fine processing was firstly used to make the lsaw biosensor with dual delay linear style . then we developed the dual channels resonance circuit and used the labview software to record and analyze phase / frequency automatically . so the detection system of lsaw biosensor was constructed by combing all these components with network analyzer and computer 方法: 1 .利用精细微加工方法制备双延迟线型漏声表面波传感器,并自行开发研制自激式振荡电路, labview相位、频率记录分析软件,将它们与网络分析仪、频谱分析仪及计算机联用以构建lsaw生物传感器检测系统。 |