Plants with small, yellow leaves will need some TLC.
长了小黄叶的作物需要一些悉心的照料。
We need to evaluate its antioxidant capacity by TLC-bioautography.
我们需要通过TLC 生物自显影技术评估其抗氧化能力。
TLC was used for differentiating the radix astragali, notoginseng radix, ligustici, pieplant and so on in the prescription.
采用薄层色谱方法定性鉴别处方中黄芪、三七、川芎、大黄等药材。
Objective: To establish TLC for Huangzhi Oral Liquids.
目的:建立黄蛭口服液的薄层鉴别方法。
The TLC method is reliable , which is suitable for the capsule study.
所建立的方法准确可靠,可用于该制剂的鉴别研究。
ObjectiveTo establish methods for TLC identification of Changyanning Tablet.
目的建立肠炎宁片的薄层色谱方法。
Objective: To study preparation and TLC identification for Shiming oral liquid.
目的:探讨视明口服液的制备和薄层色谱鉴别方法。
Conclusion: the TLC method is reliable, which is suitable for the capsule study.
结论:所建立的方法准确可靠,可用于该制剂的鉴别研究。
Its herbal plant species through TLC separation technology (TLC) identification.
其植物草本种类经过薄层色谱分离技术(TLC)鉴别。
Their structures were identified on the basis of spectral data and TLC comparison.
应用光谱法和对照TLC鉴定了所有化合物的结构。
Results A specific, sensitive and reliable TLC identification method was eatablished.
结果鉴别方法专属性强,灵敏度高,重复性好。
Methods: The microscopical identification and quality identification were studied by TLC.
方法:对健胃整肠丸进行了显微鉴定,薄层色谱鉴别。
Methods: Radix Rheum, Leech, Fructus Arctium in Huangzhi Oral Liquids was identified by TLC.
方法:采用薄层色谱法鉴别黄蛭口服液中的大黄、水蛭、牛蒡子。
Methods: The main active component icariin of Herba Epimedii was determined by TLC scanning.
方法:采用薄层扫描法对淫羊藿中主要有效成分淫羊藿甙进行含量测定。
The sugar composition of the polysaccharides were determined by TLC after acidic hydrolysis.
利用酸水解和TLC测定多糖的主要糖组成。
Many major emitters such as the US and the UK do not have enough TLC in their policy frameworks.
很多像英美等主要碳排放国在各自的政策框架中并没有足够的透明度、长期性及确定性。
Method :Platycodon grandiflorum, Aster tataricus L. f, Radix stemonae in were identified by TLC.
方法:采用薄层色谱法对制剂中桔梗、紫菀、百部分别进行定性鉴别。
Flavonoid extracted with different solvents were also studied by TLC (thin-layer chromatography).
同时对不同溶剂提取的黄酮类化合物做了薄层层析(TLC)的研究。
Methods the methods of HPLC, UV, TLC etc. were used for the qualitative and quantitative analysis.
方法采用高效液相色谱法、薄层色谱法等进行定量、定性分析。
OBJECTIVE: to establish TLC for the identification of Yizhi mixture to achieve its quality control.
前言:目的:建立益智合剂中薄层色谱鉴别方法,控制制剂的质量。
Results:Platycodon grandiflorum, Aster tataricus L. f, Radix stemonae in could be identified by TLC.
结果:在薄层色谱中均能检出桔梗、紫菀、百部。
The structures were identified on the basis of spectra data and TLC comparison with known compounds.
应用光谱和与已知品对照TLC法鉴定了所有化合物的结构。
Using TLC architecture, manufacturers can produced cheaper NAND flash chips and increase its capacity.
使用TLC的架构,制造商可以生产更便宜的NAND闪存芯片,并提高其容量。
Methods: The effective constituents was extracted by physical and chemical ways and identified by TLC.
方法:采用物理及化学方法提取有效成分并用薄层色谱法进行鉴别。
Objective to establish a TLC-UV spectrophotometry method to determine chlorogenic acid in Mulberry Leaves.
目的建立薄层-紫外分光光度法测定桑叶中绿原酸的方法。
Results:Protein viscosity, TLC and UV spectrum were obviously different between Baibiandou and its variants.
结果:白扁豆及其变种的蛋白粘度、薄层色谱及紫外光谱均有明显差异。
Methods: Baibiandou and its variants were comparatively distinguished by protein viscosity, TLC and UV spectrum.
方法:用蛋白粘度、薄层色谱及紫外光谱对白扁豆及其变种进行了比较鉴别。
Methods: Baibiandou and its variants were comparatively distinguished by protein viscosity, TLC and UV spectrum.
方法:用蛋白粘度、薄层色谱及紫外光谱对白扁豆及其变种进行了比较鉴别。
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