diether

简明释义

英[/ˈdaɪˌɛθər/]美[/ˈdaɪˌɛθər/]

n. [有化] 二醚

英英释义

单词用法

同义词

反义词

例句

1.The internal donor is 1, 4-diether in this polypropylene catalyst, and this catalyst has some special properties.

通过对一种1,4 -二醚为内给电子体的聚丙烯催化剂进行性能研究，揭示此类催化剂的一些特殊性能。

2.The internal donor is 1, 4-diether in this polypropylene catalyst, and this catalyst has some special properties.

通过对一种1,4 -二醚为内给电子体的聚丙烯催化剂进行性能研究，揭示此类催化剂的一些特殊性能。

3.In chemistry, a dieter (双醚) can refer to a compound that contains two ether groups.

在化学中，dieter (双醚) 可以指含有两个醚基的化合物。

4.The research focused on the properties of a specific dieter (双醚) used in pharmaceuticals.

研究集中在一种特定的dieter (双醚) 在药品中的性质。

5.A common example of a dieter (双醚) is diethyl ether, which is used as an anesthetic.

一个常见的dieter (双醚) 的例子是乙醚，它被用作麻醉剂。

6.When discussing solvents, a dieter (双醚) can be advantageous due to its low boiling point.

在讨论溶剂时，dieter (双醚) 由于其低沸点而具有优势。

7.The synthesis of a new dieter (双醚) compound was reported in the latest chemistry journal.

最新的化学期刊报道了一种新型dieter (双醚) 化合物的合成。

作文

In the field of chemistry, understanding the various types of compounds is crucial for both students and professionals. One such compound that often comes up in discussions is the term dieter, which refers to a specific type of ether. Ethers are organic compounds that contain an oxygen atom connected to two alkyl or aryl groups. The classification of ethers can be quite complex, but dieter specifically denotes a symmetrical ether, where both alkyl or aryl groups are identical. This symmetry gives dieter unique properties compared to other types of ethers. For instance, dieter compounds tend to have lower boiling points than their unsymmetrical counterparts due to their uniform structure. When we explore the applications of dieter compounds, we find that they play a significant role in various industries. In pharmaceuticals, dieter derivatives are often used as solvents or intermediates in the synthesis of drugs. Their ability to dissolve a wide range of substances makes them invaluable in creating formulations that require specific chemical properties. Moreover, the stability of dieter compounds allows them to be utilized in reactions that demand high purity and precision. In addition to their industrial applications, dieter compounds also hold significance in academic research. Chemists study these compounds to understand their behavior under different conditions and to explore potential new uses. For example, researchers may investigate how dieter compounds interact with various reagents or how their structures can be modified to enhance their properties. This research not only contributes to the field of chemistry but also has implications for material science and nanotechnology. Furthermore, the environmental impact of dieter compounds is an area of growing concern. As industries strive to become more sustainable, the need for greener alternatives is paramount. Scientists are exploring ways to synthesize dieter compounds using renewable resources, thereby reducing reliance on fossil fuels and minimizing waste. This shift towards sustainability is essential for the future of chemical manufacturing and highlights the importance of understanding compounds like dieter. In conclusion, the term dieter encompasses a vital category of ethers that are pivotal in both industrial applications and scientific research. By recognizing the significance of dieter compounds, we can appreciate their role in advancing technology and improving our understanding of chemistry. Whether in pharmaceuticals, materials science, or environmental studies, dieter compounds will continue to be a focal point for innovation and discovery in the chemical landscape. Therefore, gaining a thorough understanding of dieter is not only beneficial for students and professionals in chemistry but also for anyone interested in the broader implications of chemical research and development.

在化学领域，理解各种类型的化合物对学生和专业人士来说至关重要。其中一个经常出现在讨论中的术语是dieter，它指的是一种特定类型的醚。醚是含有一个氧原子与两个烷基或芳基相连的有机化合物。醚的分类可能相当复杂，但dieter特别表示一种对称醚，其中两个烷基或芳基是相同的。这种对称性使得dieter与其他类型的醚相比具有独特的性质。例如，dieter化合物的沸点通常低于其不对称对应物，因为其结构均匀。 当我们探讨dieter化合物的应用时，我们发现它们在各个行业中发挥着重要作用。在制药行业，dieter衍生物通常用作溶剂或药物合成中的中间体。它们能够溶解广泛的物质，使其在创建需要特定化学性质的配方中不可或缺。此外，dieter化合物的稳定性使其能够在要求高纯度和精确度的反应中使用。 除了工业应用外，dieter化合物在学术研究中也具有重要意义。化学家研究这些化合物，以了解它们在不同条件下的行为，并探索潜在的新用途。例如，研究人员可能会调查dieter化合物如何与各种试剂相互作用，或者如何修改其结构以增强其性质。这项研究不仅为化学领域做出了贡献，还有助于材料科学和纳米技术的发展。 此外，dieter化合物的环境影响正成为日益关注的问题。随着行业努力实现可持续发展，对更环保替代品的需求变得至关重要。科学家们正在探索利用可再生资源合成dieter化合物的方法，从而减少对化石燃料的依赖并最小化废物。这种向可持续性的转变对化学制造的未来至关重要，并突显了理解像dieter这样的化合物的重要性。 总之，术语dieter涵盖了一类在工业应用和科学研究中至关重要的醚。通过认识到dieter化合物的重要性，我们可以欣赏它们在推动技术进步和提高我们对化学理解方面的作用。无论是在制药、材料科学还是环境研究中，dieter化合物将继续成为化学领域创新和发现的焦点。因此，深入理解dieter不仅对化学专业的学生和从业者有益，而且对任何对化学研究和发展的更广泛影响感兴趣的人都是如此。