ethylate

简明释义

英[ˈeθɪleɪt]美[ˈeθəleɪt]

n. 乙醇化物；乙醇盐

vt. 使引入乙基类

复 数 e t h y l a t e s

第 三 人 称 单 数 e t h y l a t e s

现 在 分 词 e t h y l a t i n g

过 去 式 e t h y l a t e d

过 去 分 词 e t h y l a t e d

英英释义

单词用法

同义词

反义词

例句

1.Meanwhile the influence of the amount of catalyst alkali ethylate and absolute alcohol, the temperature and time of reaction on interesterification was studied.

利用正交试验研究了酯交换法制备卤虾油脂肪酸乙酯的工艺，分析了催化剂用量、反应温度、反应时间、无水乙醇用量等对醇解率的影响。

2.Meanwhile the influence of the amount of catalyst alkali ethylate and absolute alcohol, the temperature and time of reaction on interesterification was studied.

利用正交试验研究了酯交换法制备卤虾油脂肪酸乙酯的工艺，分析了催化剂用量、反应温度、反应时间、无水乙醇用量等对醇解率的影响。

3.In the laboratory, we need to ethylate the compound to enhance its solubility.

在实验室中，我们需要乙基化这个化合物以增强其溶解性。

4.The process to ethylate the alcohol was carefully monitored to ensure safety.

对酒精进行乙基化的过程被仔细监控以确保安全。

5.To create a more reactive intermediate, chemists often ethylate the starting material.

为了创造一个更具反应性的中间体，化学家们常常对起始材料进行乙基化处理。

6.When we ethylate the aromatic compound, it changes its properties significantly.

当我们对芳香化合物进行乙基化时，其性质会显著变化。

7.The goal is to ethylate the substrate in order to improve the yield of the reaction.

目标是对底物进行乙基化以提高反应的产率。

作文

The process of chemical modification is essential in many fields, particularly in organic chemistry. One such modification involves the addition of ethyl groups to various compounds, a process known as ethylate. When we ethylate a molecule, we are essentially enhancing its properties or altering its reactivity. This can lead to the development of new materials or pharmaceuticals that have improved efficacy or stability. For instance, in the pharmaceutical industry, the ethylate process can play a crucial role in drug design. By introducing ethyl groups into a compound, chemists can affect how the drug interacts with biological systems. This can enhance the drug’s absorption, distribution, metabolism, and excretion (ADME) properties, ultimately leading to more effective treatments for patients. Moreover, the ethylate technique is not limited to pharmaceuticals. In materials science, the ability to ethylate polymers can significantly influence their physical properties. For example, modifying a polymer by adding ethyl groups can improve its flexibility, durability, and resistance to solvents. This is particularly useful in creating materials for packaging, automotive parts, and even electronic components. In addition to these applications, the ethylate process is also important in environmental chemistry. Certain pollutants can be treated through ethylation, which can make them less harmful or easier to remove from the environment. By ethylating specific contaminants, scientists can develop methods to mitigate their impact on ecosystems. The versatility of the ethylate process highlights its significance across various domains of science and industry. However, it is important to note that the ethylate reaction must be conducted with care, as improper handling can lead to unwanted side effects or hazardous byproducts. Therefore, researchers must thoroughly understand the mechanisms involved in ethylation to ensure safe and effective application. In conclusion, the ability to ethylate compounds is a powerful tool in modern chemistry. Whether in drug development, material science, or environmental remediation, ethylation opens up new avenues for innovation and improvement. As we continue to explore the potential of chemical modifications, the role of ethylate will undoubtedly remain significant in shaping the future of science and technology.

化学改性过程在许多领域中都是至关重要的，尤其是在有机化学中。其中一种改性涉及将乙基基团添加到各种化合物中，这一过程称为ethylate。当我们ethylate一个分子时，我们实际上是在增强其性质或改变其反应性。这可以导致新材料或药物的开发，这些材料或药物具有更好的功效或稳定性。 例如，在制药行业中，ethylate过程在药物设计中可能起着关键作用。通过将乙基基团引入化合物，化学家可以影响药物与生物系统的相互作用。这可以增强药物的吸收、分布、代谢和排泄（ADME）特性，最终导致对患者更有效的治疗。 此外，ethylate技术并不限于制药。在材料科学中，通过添加乙基基团来ethylate聚合物可以显著影响其物理特性。例如，通过添加乙基基团来改性聚合物，可以改善其柔韧性、耐久性和耐溶剂性。这在制造包装、汽车零部件甚至电子元件的材料时尤其有用。 除了这些应用外，ethylate过程在环境化学中也很重要。某些污染物可以通过ethylation处理，从而使它们变得不那么有害或更容易从环境中去除。通过ethylate特定污染物，科学家可以开发出减轻其对生态系统影响的方法。 ethylate过程的多功能性突显了其在科学和工业各个领域的重要性。然而，必须注意的是，ethylate反应必须小心进行，因为不当处理可能导致不必要的副作用或危险的副产物。因此，研究人员必须彻底理解ethylation中涉及的机制，以确保安全和有效的应用。 总之，能够ethylate化合物是现代化学中的一项强大工具。无论是在药物开发、材料科学还是环境修复中，ethylation都为创新和改进开辟了新的途径。随着我们继续探索化学改性的潜力，ethylate在塑造科学和技术未来方面的重要性无疑将持续存在。