方法:利用理化鉴别和薄层色谱鉴别。
Methods: physicochemical differentiation and thin - lay chromatographic identification were applied.
方法:采用性状、显微、理化鉴别的方法。
Methods Trait identification, microscopic identification and physicochemistry identification were used.
前言:目的:研究独活及其伪品的理化鉴别依据。
Objective: To seek the basis for the physical and chemical differentiation between a.
方法:应用药材性状鉴别、显微鉴别及理化鉴别法鉴定。
Method: Characteristic identification, microscopic identification and the physics and chemistry distinguishing were used.
方法:采用来源鉴别、性状鉴别、显微及理化鉴别的方法。
METHODS:To study its sources, shapes properties, microscopic and physiochemical characteristics used in pharmacognostic identification.
目的对菊苣子进行理化鉴别研究,为制定菊苣子的质量标准奠定基础。
Objective To study the identification methods of seed of Cichorium inrybus L. in order to establish its quality standard.
方法:采用理化鉴别和薄层色谱鉴别法对提取后的蟾酥残渣进行检查。
Methods: Extracted Venenum Bufonis remains was determined by physical and chemical test and TLC.
结果木槿花和朱槿花在外观形态、显微特征及理化鉴别等方面有明显不同。
Results The appearance, microscopic characteristics, and physicochemical identification results of Flos hibisci syriacus and Flos hibisci rosacsinesus were apparently different from each other.
方法:通过性状、粉末显微鉴别、理化鉴别、薄层色谱鉴别进行综合分析。
Methods: Compositive analyse for character, powder, physics and chemistry, flat-bed chromatogram differentiate.
结果:易于生产,理化鉴别法方便、实用,TLC法斑点清晰,易于鉴别。
Results: it was easy prepared, the methods of physical chemistry are convenience & practical, the spots of TLC method are distinct.
结论:药材的性状鉴别、显微鉴别及理化鉴别特点可为该药的生药学研究提供依据。
Conclusion: Characteristic identification, microscopic identification and the physics and chemistry distinguishing could provide a basis f…
方法:利用药材来源、药材性状、显微特征、理化鉴别等鉴别方法对薄荷和留兰香进行对比鉴别。
Method: making comparison by their origins, shapes and properties, microscopic characters and physical and chemical tests.
乌梅中医临床内服外用均有奇效,但常被杏、山杏、山李、桃、陈乌梅、诃子等伪劣品所混淆,从来源鉴别、性状鉴别、显微鉴别、理化鉴别四方面可将它们相互鉴别区分开来。
Black plum has strange effect by orally taking or external application in TCM clinic, but it is often mixed with other spurious, such as apricots, plum, peach, etc.
鉴别和检查指标标准:通过理化性质、紫外光谱、分子量指标、指纹图谱、水解氨基酸指标五部分进行确定。
The standard of identification: it has been identified according to physiochemistry, UV spectrum, molecular weight, Chromatographic Fingerprints and amino acid analysis.
方法:采用薄层色谱法和理化反应对其中的淫羊藿、补骨脂、原蚕蛾进行鉴别,采用紫外分光光度法测定淫羊藿苷含量。
Methods: Herba Epimedii, Fructus Psoraleae and Bombyx mori were identified by TLC and chemistry reactions; and icariin was determined by UV.
由于竹原纤维与麻类纤维。竹浆纤维与粘胶纤维的形态结构和理化性质相近。给鉴别工作带来很大困难。
Because bamboo fiber and hemp fiber, bamboo fiber and viscose fiber morphology and physical and chemical properties similar to the differential has caused great difficulties.
方法根据山刺玫根来源、性状、显微、理化对其鉴别。
Methods To distinguish it by its source and property, microscope, physical and chemical characteristic.
目前,葡萄酒质量的鉴别主要靠感官分析和理化指标分析的方法来确定。
Quality identification of wine relay primarily on the standards of sensory evaluation and physic-chemistry.
采用熔点、氨基酸组分分析、元素分析、质谱等方法对其结构进行鉴别,用高效液相色谱法确定其纯度。结果合成的双肽经理化检测,质量高。
The physicochemical properties of this dipeptide were identified with melting point determination, amino acid analysis, elements analysis and MS and its purity was determined with HPLC.
由结果可知,可通过性状、理化、显微鉴别的方法对其进行鉴别;
Lyodium Sw. plants could be identified by characteristic, physiochemical and microscopic identification methods.
由结果可知,可通过性状、理化、显微鉴别的方法对其进行鉴别;
Lyodium Sw. plants could be identified by characteristic, physiochemical and microscopic identification methods.
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