结果分析了溶液的表面活性效能、效率和表面过剩浓度,甘草水煎液表面活性较好。
Results the efficiency, efficacy and surface concentration were analyzed, and the surface activity of the solution of Glycyrrhiza Radix was better.
石膏甘草水:生石膏100克,生甘草10克,清水2000毫升,置砂锅内水煎,待冷漱口,每日数次。
Gesso licorice water: gypsum 100 grams, born licorice 10 grams, 2000ml water, buy arenaceous boiler water frying, stay cold mouthwash, daily times.
复方甘草酸苷可迅速降低氨基转移酶水平,并减少水钠潴留和低血钾的发生。
Compound glycyrrhizin could rapidly lower the aminopherase(AT)level and reduce the incidence rates of water-sodium retention and hypopotassemia.
主要成份:去离子水、甘油、甘草提取液、水解小麦蛋白、甘油、复合维他命、透明质酸、烷基咪唑脲、香精等。
Ingredients: Deionized water, glycerin, liquorices extract, hydrolyzed wheat protein, glycerin, compound vitamin, imidazolidinyl urea, HA, essence, etc.
成份:999黄金金箔、奈米金、奈米白金、奈米银、芦荟萃取液、银杏萃取液、玻尿酸、甘草萃取液、大豆蛋白、羊毛脂、保存剂、去离子水。
Ingredients:999 Gold Foil, Nano Gold, Nano Platinum, Nano Silver, Aloe Extract, Ginkgo Biloba Extract, Hyaluronic Acid, Licorice Extract, Soybean Protein, Lanolin, Propyl Paraben, D. I Water.
目的比较水酸法和氨水法提取甘草酸含量的变化。
Objective To compare diffenrent amounts of the glycyrrhizic acid extracted by two methods-decoct method and Ammonia-water method.
成份:左旋维他命c、胡萝卜素、玻尿酸、甘草萃取液、海胆萃取液、胶原蛋白、尿囊素、保存剂、去离子水。
Ingredients: L-Ascorbic Acid, Carrot Seed, Hyaluronic Acid, Licorice Extract, Sea Urchin Extract, Collagen, Allantoin, Propyl Paraben, D. I Water.
本文选择资源丰富,用途广泛的中草药甘草和纤维素酶为研究对象,采用双水相萃取技术分离提取。
Herb medicine glycyrrhiza and cellulase whose are abundant and are wide range of application by the aqueous two-phase extraction was studied.
产品成分:去离子水、丙二醇、丙烯酸聚合物、西曲氯铵、木瓜提取液、甘草提取液、DMDM乙内酰脲、香料。
Ingredients: Deionized Water, Propanediol, Acrylic Acid Polymer, N-Hexadecyltrimethylammonium Chloride, Pawpaw Extract, Melarrest l, DMDM Hydantoin, Essence.
产品成分:去离子水、甘油、丁二醇、仙人掌提取液、金缕梅提取液、甘草提取液、透明质酸、尿囊素、苯氧乙醇、PEG - 40氢化蓖麻油、EDTA -二钠、香料。
Ingredients: Deionized Water, Glycerin, Butanediol, Cactus Extract, Hamamelis Extract, Melarrest l, ha, Allantoin, Phenoxyethanol, PEG-40 Hydrogenated Castor Oil, EDTA-Disodium Salt, Essence.
结果说明荒漠干旱条件诱发的甘草气孔振荡可能主要是一种水被动过程。
These results suggested that stomatal oscillations induced by atmospheric drought stress and root resistance were mainly a type of hydropassive movement.
结果说明荒漠干旱条件诱发的甘草气孔振荡可能主要是一种水被动过程。
These results suggested that stomatal oscillations induced by atmospheric drought stress and root resistance were mainly a type of hydropassive movement.
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