glyceryl

简明释义

英[ˈɡlɪsərɪl]美[ˈɡlɪsəˌrɪl]

n. 丙三基，甘油基

adj. 甘油基的

英英释义

单词用法

同义词

反义词

例句

1.The shaped article may also comprise a diluent, glyceryl triacetate.

所述成形制品也可包含稀释剂、三乙酸甘油酯。

2.A glyceryl ester obtained by saponification of fats and oils.

由脂肪和油脂皂化得到的甘油酯。

3.There was no difference between groups in endothelium -independent glyceryl trinitrate changes in...

两组的肱动脉区域内皮依赖性三硝酸甘油酯的变化无异。

4.A new synthetic method glyceryl monolaurate(GML) from glycerin and lauric acid via protected hydroxy groups by boric acid was studied.

研究了以甘油、月桂酸为原料，用硼酸保护羟基进行酯化反应合成甘油单月桂酸酯的新方法。

5.GTN(glyceryl trinitrate) provided no relief although normally relieves pain in minutes, no other relieving/exacerbating factors.

硝酸甘油平时能在数分钟内缓解疼痛，但本次无效，无其它缓解和恶化因素。

6.Under this conditions, the yield of glyceryl triacetate was up to 94%.

此条件下，三醋酸甘油酯收率超过94%。

7.The preparation of catalysts, yield of glyceryl triacetate, and merits and demerits of the catalysts were introduced briefly.

对上述催化剂制备、三醋酸甘油酯收率、催化剂优缺点作简要介绍。

8.The glyceryl was used as standard to calculate Number—Average Molecular Weight of polyether. The result showed that it was accurate, convenient and high speed method.

用甘油基作标准求出了聚醚的数均分子量，结果表明此法准确、方便、快速。

9.The cream contains glyceryl to provide deep hydration.

这款面霜含有甘油，能够提供深层滋润。

10.In cosmetics, glyceryl esters are often used as emollients.

在化妆品中，甘油酯常用作润肤剂。

11.The formula was enhanced with glyceryl monostearate for better texture.

该配方加入了甘油单硬脂酸酯以改善质地。

12.Many soaps use glyceryl as a humectant to retain moisture.

许多肥皂使用甘油作为保湿剂，以保持水分。

13.The lotion is enriched with glyceryl to soothe dry skin.

这款乳液富含甘油，可以舒缓干燥肌肤。

作文

In the field of chemistry and biochemistry, understanding various compounds is essential for both research and application. One such compound that often comes up in discussions about fats and oils is glyceryl. The term glyceryl refers to a group of chemical compounds derived from glycerol, which is a simple polyol compound. 甘油基, in Chinese, is the equivalent term used to describe this group. Glycerol itself is a colorless, odorless liquid that is sweet-tasting and non-toxic, making it a valuable substance in many industries, including food, pharmaceuticals, and cosmetics. The structure of glyceryl compounds typically consists of a glycerol backbone with various fatty acids attached to it. This configuration allows for the formation of different types of lipids, which play crucial roles in biological systems. For example, when three fatty acids are esterified to a glycerol molecule, they form triglycerides, which are the primary form of stored energy in animals and plants. Understanding the role of glyceryl in these processes can help us appreciate how our bodies utilize fats for energy and cellular functions. Moreover, glyceryl derivatives are widely used in the cosmetic industry. Products such as moisturizers and creams often contain glyceryl esters, which serve as emollients. These compounds help to soften and smooth the skin by forming a barrier that locks in moisture. This property makes glyceryl an important ingredient for those with dry or sensitive skin. Additionally, the safety profile of glyceryl compounds ensures that they are suitable for use in a variety of personal care products. In the food industry, glyceryl is also significant. It is commonly used as a food additive, providing moisture retention and acting as a sweetener. For instance, glyceryl monostearate is a common emulsifier that helps blend water and oil, which is essential in products like margarine and baked goods. The ability of glyceryl to improve texture and stability in food products highlights its versatility and importance in culinary applications. Furthermore, the study of glyceryl compounds extends into pharmacology. Various glyceryl derivatives have been investigated for their potential therapeutic effects. For example, certain glyceryl esters have been studied for their anti-inflammatory properties, which could lead to new treatments for conditions like arthritis or skin disorders. This research underscores the significance of glyceryl not only in industrial applications but also in advancing medical science. In conclusion, the term glyceryl encompasses a wide range of compounds that are integral to numerous fields, including biochemistry, cosmetics, food science, and pharmacology. The various applications of glyceryl highlight its importance in our daily lives and its contributions to health and wellness. As we continue to explore the properties and uses of glyceryl, we gain a deeper understanding of its role in both nature and industry. Whether in the form of triglycerides in our bodies or as an ingredient in our favorite lotions and foods, glyceryl is a compound that deserves recognition for its multifaceted applications.

在化学和生物化学领域，理解各种化合物对研究和应用至关重要。其中一个常常出现在关于脂肪和油的讨论中的化合物是甘油基。甘油基这个术语指的是一组来源于甘油的化学化合物，甘油是一种简单的多元醇化合物。甘油本身是一种无色、无味的液体，味道甜美且无毒，使其在食品、药品和化妆品等多个行业中成为一种有价值的物质。 甘油基化合物的结构通常由一个甘油骨架和附加的各种脂肪酸组成。这种配置允许形成不同类型的脂质，这些脂质在生物系统中发挥着关键作用。例如，当三个脂肪酸与甘油分子酯化时，它们形成三酸甘油脂，这是动物和植物储存能量的主要形式。理解甘油基在这些过程中的作用可以帮助我们认识到我们的身体如何利用脂肪来获取能量和进行细胞功能。 此外，甘油基衍生物在化妆品行业中也广泛使用。诸如保湿霜和面霜等产品通常含有甘油基酯，这些酯作为润肤剂。这些化合物通过形成锁住水分的屏障，帮助软化和平滑皮肤。这种特性使得甘油基成为那些皮肤干燥或敏感的人的重要成分。此外，甘油基化合物的安全性确保它们适合用于各种个人护理产品。 在食品行业中，甘油基同样重要。它通常用作食品添加剂，提供保湿和作为甜味剂。例如，甘油基单硬脂酸酯是一种常见的乳化剂，有助于混合水和油，这在黄油和烘焙食品等产品中至关重要。甘油基改善食品产品的质地和稳定性的能力突显了其在烹饪应用中的多功能性和重要性。 此外，甘油基化合物的研究还扩展到药理学。各种甘油基衍生物已被研究其潜在的治疗效果。例如，某些甘油基酯因其抗炎特性而被研究，这可能导致新的治疗方法用于关节炎或皮肤疾病等情况。这项研究强调了甘油基在工业应用和推动医学科学进步方面的重要性。 总之，甘油基这个术语涵盖了一系列在多个领域中不可或缺的化合物，包括生物化学、化妆品、食品科学和药理学。甘油基的各种应用突显了其在我们日常生活中的重要性及其对健康和福祉的贡献。随着我们继续探索甘油基的特性和用途，我们对其在自然和工业中的角色有了更深刻的理解。无论是作为我们身体中的三酸甘油脂，还是作为我们喜爱的乳液和食品中的成分，甘油基都是一个值得认可的多面化合物。