phenate
简明释义
英[ˈfiːneɪt]美[ˈfeneɪt;ˈfiːˌneɪt]
n. 石炭酸盐;苯酚盐
英英释义
A phenate is a salt or ester of phenol, typically formed by the reaction of phenol with a base, which can be used in various chemical applications. | Phenate是酚的盐或酯,通常通过酚与碱反应形成,可用于各种化学应用。 |
单词用法
苯酸钠 | |
苯酸钙 | |
苯酸根离子 | |
苯酸衍生物 |
同义词
| 酚 | 酚用于塑料和树脂的生产。 | ||
| 苯酚化合物 | Phenolic compounds are known for their antioxidant properties. | 苯酚化合物因其抗氧化特性而闻名。 |
反义词
| 非苯酸盐 | 该化合物的非苯酸盐形式毒性较低。 | ||
| 去苯化 | To dephenate the solution, we need to add a specific reagent. | 要去苯化溶液,我们需要添加特定试剂。 |
例句
1.The synthesis technology of high basic value calcium sulfurized alkyl Phenate using dodecyl phenol as one of main materials were introduced in this paper.
介绍了以四聚丙烯烷基酚为主要原料,合成高碱值硫化烷基钙的工艺过程。
2.The synthesis technology of high basic value calcium sulfurized alkyl Phenate using dodecyl phenol as one of main materials were introduced in this paper.
介绍了以四聚丙烯烷基酚为主要原料,合成高碱值硫化烷基钙的工艺过程。
3.In the laboratory, they prepared a solution containing phenate for their experiment on ion exchange.
在实验室,他们准备了一种含有phenate的溶液,用于离子交换实验。
4.The chemist decided to use a sodium salt of the organic compound known as phenate to enhance the reaction efficiency.
化学家决定使用一种有机化合物的钠盐,即phenate,以提高反应效率。
5.The presence of phenate in the sample indicated a potential contamination issue.
样本中存在的phenate表明可能存在污染问题。
6.The analytical method used to detect phenate was developed to improve accuracy and sensitivity.
用于检测phenate的分析方法已被开发,以提高准确性和灵敏度。
7.Researchers are studying how phenate compounds interact with various metals in environmental samples.
研究人员正在研究phenate化合物与环境样本中各种金属的相互作用。
作文
In the world of chemistry, understanding various compounds and their applications is essential for both students and professionals. One such compound that often comes up in discussions about organic chemistry is phenate. A phenate is a salt or ester of phenol, which means it is derived from phenol, a simple aromatic compound that has a hydroxyl group (-OH) attached to a benzene ring. The significance of phenate lies in its versatility and its role in various chemical reactions. For instance, when phenol reacts with a base, it forms a phenate ion, which can then participate in further chemical transformations. This property makes phenate an important player in organic synthesis, particularly in the production of pharmaceuticals and agrochemicals.One notable example of a phenate is sodium phenate, which is created when phenol is treated with sodium hydroxide. Sodium phenate is widely used in the manufacture of dyes, as well as in the production of certain antiseptics. This illustrates how understanding the properties and reactions of phenate can lead to advancements in various industries. Furthermore, the study of phenate compounds can also contribute to environmental chemistry, as some phenate derivatives are investigated for their potential to degrade pollutants in the environment.Moreover, the importance of phenate extends beyond just industrial applications. In academic settings, learning about phenate and its related compounds helps students grasp fundamental concepts in organic chemistry. It provides a basis for understanding more complex reactions and mechanisms that are pivotal in research and development. Through laboratory experiments, students can observe the behavior of phenate ions and their interactions with other substances, reinforcing theoretical knowledge with practical experience.In conclusion, the compound phenate plays a crucial role in both chemical industry and education. Its ability to participate in various chemical reactions makes it invaluable in the synthesis of numerous products, from dyes to pharmaceuticals. By studying phenate, students and professionals alike can deepen their understanding of organic chemistry and its applications. As we continue to explore the vast world of chemistry, the significance of compounds like phenate will undoubtedly remain prominent, driving innovation and discovery across multiple fields.
在化学世界中,理解各种化合物及其应用对于学生和专业人士来说至关重要。一个在有机化学讨论中经常出现的化合物是phenate。phenate是酚的盐或酯,这意味着它是从酚衍生而来的,酚是一种简单的芳香族化合物,其苯环上附有羟基(-OH)。phenate的重要性在于它的多功能性及其在各种化学反应中的作用。例如,当酚与碱反应时,会形成phenate离子,随后可以参与进一步的化学转化。这一特性使得phenate成为有机合成中的重要角色,特别是在制药和农用化学品的生产中。一个值得注意的phenate例子是苯酚钠,它是在苯酚与氢氧化钠反应时生成的。苯酚钠广泛用于染料的制造,以及某些防腐剂的生产。这说明理解phenate的性质和反应可以推动各个行业的进步。此外,phenate化合物的研究也可以促进环境化学的发展,因为一些phenate衍生物被研究用于降解环境中的污染物。此外,phenate的重要性不仅限于工业应用。在学术环境中,学习phenate及其相关化合物帮助学生掌握有机化学中的基本概念。这为理解更复杂的反应和机制提供了基础,而这些在研究和开发中至关重要。通过实验室实验,学生可以观察phenate离子的行为及其与其他物质的相互作用,从而用实践经验强化理论知识。总之,化合物phenate在化学工业和教育中扮演着至关重要的角色。它参与各种化学反应的能力使其在合成众多产品(从染料到药物)中不可或缺。通过研究phenate,学生和专业人士都能加深对有机化学及其应用的理解。随着我们继续探索广阔的化学世界,像phenate这样的化合物的重要性无疑将继续突出,推动多个领域的创新和发现。
