triol
简明释义
n. 三醇
英英释义
A triol is a type of alcohol that contains three hydroxyl (–OH) groups in its molecular structure. | 三醇是一种含有三个羟基(–OH)基团的醇类化合物。 |
单词用法
甘油三醇 | |
多元醇三醇 | |
三醇化合物 | |
三醇结构 |
同义词
三羟基 | Glycerol is a common trihydroxy alcohol used in food and pharmaceuticals. | 甘油是一种常见的三羟基醇,广泛用于食品和制药行业。 | |
三醇化合物 | 三醇通常用于聚氨酯的生产。 |
反义词
二醇 | 乙二醇是一种常见的二醇,用于防冻剂。 | ||
单醇 | Glycerol is a well-known monol used in food and pharmaceuticals. | 甘油是食品和药品中著名的单醇。 |
例句
1.The synthesis of oxyethylene oxypropylene copolyethers used for quenchant was studied by using anionic ring opening polymerization, diol or triol as the starting agent and KOH as the catalyst.
研究了以KOH为催化剂,二元或三元醇为起始剂,采用阴离子开环聚合合成淬火剂用共聚醚。 结果表明:产物的分子量随起始剂和杂质量的减少而增加;
2.The synthesis of oxyethylene oxypropylene copolyethers used for quenchant was studied by using anionic ring opening polymerization, diol or triol as the starting agent and KOH as the catalyst.
研究了以KOH为催化剂,二元或三元醇为起始剂,采用阴离子开环聚合合成淬火剂用共聚醚。 结果表明:产物的分子量随起始剂和杂质量的减少而增加;
3.Preferably, the urethane prepolymer is an aliphatic isocyanate polyether prepolymer and the curative includes an aromatic diamine and a triol.
优选地,该氨基甲酸酯预聚物是脂族异氰酸酯聚醚预聚物,且该固化剂包括芳族二胺和三醇。
4.With the compounding of polyether glycol and triol, the foam sealant can get good allround properties.
聚醚二醇和聚醚三醇复配使用,可制得综合性能良好的单组分聚氨酯泡沫胶体系。
5.In organic chemistry, a triol 三醇 is a compound that contains three hydroxyl groups.
在有机化学中,triol 三醇 是一种含有三个羟基的化合物。
6.The synthesis of a new triol 三醇 was reported in the latest journal.
最新期刊中报道了一种新型的 triol 三醇 的合成。
7.Many triols 三醇 are used in the production of plastics and resins.
许多 triol 三醇 被用于塑料和树脂的生产。
8.The physical properties of a triol 三醇 can vary significantly based on its structure.
一个 triol 三醇 的物理特性可能因其结构而显著变化。
9.Researchers are studying the effects of a specific triol 三醇 on cellular metabolism.
研究人员正在研究特定 triol 三醇 对细胞代谢的影响。
作文
In the world of chemistry, understanding different types of compounds is essential for students and professionals alike. One such compound that often comes up in organic chemistry is a type of alcohol known as a triol. A triol is a molecule that contains three hydroxyl (-OH) groups, making it a trihydroxy alcohol. This unique structure gives triols distinct chemical properties and applications that are important in various fields, including pharmaceuticals, cosmetics, and polymer science. To better understand the significance of triols, let’s consider their role in the synthesis of complex molecules. For instance, glycerol, which is a common triol, is widely used in food products, cosmetics, and pharmaceuticals due to its ability to retain moisture and enhance texture. The presence of three hydroxyl groups allows glycerol to form hydrogen bonds with water, making it an excellent humectant. This property is particularly valuable in skincare products where hydration is key. Moreover, triols can also participate in various chemical reactions that lead to the formation of more complex structures. In organic synthesis, triols can be converted into ethers, esters, or even more complex polyols. This versatility makes them crucial intermediates in the production of larger molecules. For example, when a triol undergoes dehydration, it can form cyclic compounds or even contribute to the synthesis of polymers, which are essential in manufacturing plastics and other materials. The importance of triols extends beyond industrial applications. In biochemistry, these compounds play significant roles in metabolic pathways. For instance, the sugar alcohols that are classified as triols can be involved in energy metabolism. As such, they are important not only in synthetic chemistry but also in biological systems, highlighting the interconnectedness of different scientific disciplines. Understanding the properties and functions of triols is crucial for anyone studying chemistry. Their unique structure allows them to participate in a variety of reactions, making them versatile building blocks in both natural and synthetic processes. As we continue to explore the complexities of chemical compounds, the study of triols will undoubtedly reveal more about their potential uses and benefits. In conclusion, triols represent a fascinating area of study within organic chemistry. Their three hydroxyl groups provide unique properties that are leveraged in numerous applications across different industries. Whether it’s in the formulation of everyday products or in advanced scientific research, understanding triols is essential for chemists and those interested in the field. As we look to the future, the exploration of triols may lead to innovative solutions and advancements in technology and health.
在化学的世界中,理解不同类型的化合物对学生和专业人士来说至关重要。其中一种在有机化学中经常出现的化合物是被称为三醇的酒精。三醇是一种分子,含有三个羟基(-OH)基团,使其成为三羟基酒精。这种独特的结构赋予了三醇独特的化学性质和应用,这在制药、化妆品和高分子科学等多个领域都很重要。 为了更好地理解三醇的重要性,让我们考虑它们在复杂分子合成中的作用。例如,甘油是一种常见的三醇,因其能够保持水分和增强质地而广泛用于食品、化妆品和制药产品。三个羟基的存在使甘油能够与水形成氢键,从而使其成为一种优秀的保湿剂。这一特性在需要保持水分的护肤品中尤为宝贵。 此外,三醇还可以参与各种化学反应,形成更复杂的结构。在有机合成中,三醇可以转化为醚、酯,甚至更复杂的多元醇。这种多功能性使它们成为生产更大分子的关键中间体。例如,当三醇经过脱水反应时,它可以形成环状化合物,甚至有助于聚合物的合成,而聚合物在塑料和其他材料的制造中至关重要。 三醇的重要性不仅限于工业应用。在生物化学中,这些化合物在代谢途径中发挥着重要作用。例如,被归类为三醇的糖醇可以参与能量代谢。因此,它们不仅在合成化学中重要,在生物系统中也同样重要,突显了不同科学学科之间的相互联系。 理解三醇的性质和功能对于任何学习化学的人来说都是至关重要的。它们独特的结构使它们能够参与多种反应,成为自然和合成过程中的多功能构建块。随着我们继续探索化合物的复杂性,对三醇的研究无疑会揭示更多关于它们潜在用途和益处的信息。 总之,三醇代表了有机化学研究中的一个迷人领域。它们的三个羟基提供了独特的性质,在各个行业的众多应用中得到了利用。无论是在日常产品的配方中,还是在先进的科学研究中,理解三醇对于化学家和对该领域感兴趣的人来说都是必不可少的。展望未来,对三醇的探索可能会带来创新的解决方案和技术与健康的进步。
文章标题:triol的意思是什么
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