Spectroscopy Used(使用的光谱学)研究综述
Spectroscopy Used 使用的光谱学 - To assess the structures of the leaflets and conduits of the heart valves, ECM components and their organization were evaluated by histology, biochemical analysis (BC), scanning electron microscopy, multiphoton microscopy, tensile test, immunofluorescence labeling (IF), and Raman microspectroscopy used to draw a profile of the cell niches. [1]为了评估心脏瓣膜的小叶和导管的结构,ECM 成分及其组织通过组织学、生化分析 (BC)、扫描电子显微镜、多光子显微镜、拉伸试验、免疫荧光标记 (IF) 和拉曼显微光谱进行了评估绘制细胞壁龛的轮廓。 [1]
Raman Spectroscopy Used 使用拉曼光谱
X-ray diffraction analysis and Raman spectroscopy used in addition to the methods mentioned above showed that the structure of nanodiamond particles obtained from natural diamond is similar to the structure of a detonation synthesis nanodiamond. [1] In this paper, Raman spectroscopy used in the analytical chemistry field was introduced into the illumination research of the cultural relics in museum. [2] Combining risk-assessment techniques with two ways of developing monitoring calibrations (local or general models), we were able to obtain good predictive power from Raman spectroscopy used as PAT tool, when multiple cultivation conditions vary. [3] Raman spectroscopy used to detect the structural change in the nickel oxide lattice as the oxygen flow rate changes. [4]除了上述方法外,使用的 X 射线衍射分析和拉曼光谱表明,从天然金刚石中获得的纳米金刚石颗粒的结构类似于爆轰合成纳米金刚石的结构。 [1] 本文将用于分析化学领域的拉曼光谱技术引入到博物馆文物照明研究中。 [2] 将风险评估技术与开发监测校准的两种方法(局部或通用模型)相结合,当多种培养条件发生变化时,我们能够从用作 PAT 工具的拉曼光谱中获得良好的预测能力。 [3] 拉曼光谱用于检测氧化镍晶格随着氧气流量变化而发生的结构变化。 [4]
Impedance Spectroscopy Used 使用阻抗谱
It also displays the phenomenon of impedance spectroscopy used to characterise the sensor and material under test (MUT). [1] Electrochemical impedance spectroscopy used to study the internal electrochemical characteristics of DSSC after the treatment. [2]它还显示了用于表征传感器和被测材料 (MUT) 的阻抗谱现象。 [1] 电化学阻抗谱用于研究DSSC处理后的内部电化学特性。 [2]
Vi Spectroscopy Used 使用 Vi 光谱
UV-vis spectroscopy used to measure the surface plasmon resonance at 361 nm to confirm the presence of polysaccharides (glucan molecules) in Ec-βG. [1] Multiwavelength UV-Vis spectroscopy used to estimate the bacterial growth under different sodium chloride concentrations. [2]紫外可见光谱用于测量 361nm 的表面等离子共振,以确认 Ec-βG 中多糖(葡聚糖分子)的存在。 [1] 多波长 UV-Vis 光谱用于估计不同氯化钠浓度下的细菌生长。 [2]