纳米颗粒散射光信号的获取是利用动态光散射技术分析纳米颗粒粒径的基础。
T he technique of dynamic light scattering used to analyze nanoparticle size is based on the acquisition of the scattering light signals.
实验结果表明:动态光散射技术可以有效地用来研究蛋白质分子间的相互作用。
Experimetns work indicate the technique of dynamic light scattering can be used effectively to study protein molecular interactions.
本文用动态光散射技术(DLS,又称为PCS或QELS)和粘滞测量技术,研究了明胶从溶胶到凝胶相变过程中的弛豫性质。
The relaxation spectrum of aqueous gelatin during its phase change from sol to gel was studied by dynamic light scattering technique (DLS, also known as PCS or QELS).
该研究小组利用共焦光学显微镜观察纤维,利用动态光散射技术证实了纤维的组装过程,而且利用原子力显微镜技术(AFM)研究了它们的形态。
The research team observed the fibers using confocal light microscopy, confirmed their assembly using dynamic light scattering and studied their morphology using atomic force microscopy (AFM).
光散射技术为实验室测定胶体凝聚过程的动态变化和凝聚体结构特征提供了有利的手段。
Light scattering techniques provide a favorable means for determining aggregation's dynamic change and structural features in laboratory.
借助动态光散射测试、折光指数变化及DSC热分析技术研究微凝胶的性能。
Dynamic light scattering, refractive index and DSC techniques were used to study the properties.
根据散射光偏振特点,结合偏振门检测技术,改进了传统的动态光散射光学系统。
According to the polarization characteristics of scattered light, the traditional dynamic light scattering optical system is improved which is combined with polarization-gate detection technology.
根据散射光偏振特点,结合偏振门检测技术,改进了传统的动态光散射光学系统。
According to the polarization characteristics of scattered light, the traditional dynamic light scattering optical system is improved which is combined with polarization-gate detection technology.
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