diethylamine
简明释义
英[daɪˈeθɪləˌmiːn]美[daɪˈeθɪləˌmiːn]
n. [有化] 二乙胺
英英释义
单词用法
二乙胺溶液 | |
二乙胺衍生物 | |
二乙胺合成 | |
在反应中使用二乙胺 | |
安全存储二乙胺 | |
分析二乙胺浓度 |
同义词
| N,N-二乙胺 | N,N-diethylamine is commonly used as a solvent in organic synthesis. | N,N-二乙胺常用作有机合成中的溶剂。 | |
| 二乙氨基 | Diethylamino groups are often found in pharmaceuticals and agrochemicals. | 二乙氨基团常见于药物和农用化学品中。 |
反义词
| 乙胺 | Ethylamine is often used in the synthesis of pharmaceuticals. | 乙胺常用于药物合成中。 | |
| 氨 | 氨是肥料中常见的氮源。 |
例句
1.Conclusion Diclofenac diethylamine salt gel is safe for transdermal administration.
结论双氯芬酸二乙胺盐凝胶经皮给药安全。
2.In basic media containing sodium hydroxide, potassium hydroxide, diethylamine and ethylenediamine, and in the presence of sulphide ion, there appears a sensitive adsorption wave.
在氢氧化钠、氢氧化钾、二乙胺和乙二胺碱性溶液中,在硫离子存在下套出现灵敏的吸附波。
3.OBJECTIVES: To optimize the formulation of diethylamine salicylate gel by comparative study on transdermal osmotic rate.
目的:通过对凝胶剂经皮渗透速率的比较,优化二乙胺水杨酸凝胶剂处方。
4.Results Heparin Sodium Cream, Diethylamine Salicylate and Magnesium Sulfate have significant differences to control(P<0.05) in fadeaway index number and recovery time.
结果紫杉醇外渗后肿胀恢复时间海普林软膏优于其它组(P<0.05);
5.In basic media containing sodium hydroxide, potassium hydroxide, diethylamine and ethylenediamine, and in the presence of sulphide ion, there appears a sensitive adsorption wave.
在氢氧化钠、氢氧化钾、二乙胺和乙二胺碱性溶液中,在硫离子存在下套出现灵敏的吸附波。
6.Objective To observe the safety of diclofenac diethylamine salt gel after external use.
目的观察双氯芬酸二乙胺盐凝胶经皮用药的安全性。
7.Tetraethyl thiuram disulfide was synthesized one step from diethylamine and carbon bisulfide with hydrogen peroxide (27.5%) as oxidant.
以二乙胺和二硫化碳为原料,经双氧水(27.5%)氧化,一步合成了四乙基秋兰姆化二硫。
8.The chemist used diethylamine to synthesize a new compound.
化学家使用二乙胺合成了一种新化合物。
9.The production of rubber often involves diethylamine as a catalyst.
橡胶的生产通常涉及二乙胺作为催化剂。
10.In the laboratory, diethylamine is often utilized as a solvent.
在实验室中,二乙胺常常用作溶剂。
11.Safety protocols must be followed when handling diethylamine.
处理二乙胺时必须遵循安全协议。
12.Researchers found that diethylamine can enhance the reaction rate.
研究人员发现二乙胺可以提高反应速率。
作文
Diethylamine is an organic compound that has garnered attention in various fields, including chemistry, pharmaceuticals, and agriculture. It is classified as a secondary amine, which means it contains two ethyl groups attached to a nitrogen atom. The chemical formula for this compound is C4H11N. Understanding the properties and applications of diethylamine (二乙胺) is essential for students and professionals who work in related industries.One of the most notable properties of diethylamine (二乙胺) is its ability to act as a base. This characteristic makes it useful in various chemical reactions, particularly in the synthesis of other compounds. For instance, diethylamine (二乙胺) can be utilized in the production of surfactants, which are substances that reduce surface tension between liquids. This property is particularly valuable in the formulation of detergents and emulsifiers.In addition to its role in chemical synthesis, diethylamine (二乙胺) is also employed in the pharmaceutical industry. It serves as a building block for several drugs and can influence the pharmacological properties of these compounds. By modifying the structure of a drug molecule with diethylamine (二乙胺), chemists can enhance its efficacy or reduce potential side effects. This versatility has made diethylamine (二乙胺) a significant component in drug development processes.Furthermore, diethylamine (二乙胺) is used in agriculture, where it acts as a herbicide and pesticide. Its effectiveness in controlling unwanted plant growth and pests has made it a valuable tool for farmers. By applying diethylamine (二乙胺) based formulations, agricultural producers can improve crop yields and manage pest populations more effectively.Despite its many applications, it is crucial to handle diethylamine (二乙胺) with care due to its toxic nature. Exposure to this compound can lead to various health issues, including respiratory problems and skin irritation. Therefore, proper safety protocols must be followed when working with diethylamine (二乙胺) in laboratory or industrial settings. Wearing appropriate personal protective equipment (PPE) and ensuring adequate ventilation are essential steps to mitigate risks associated with its use.In conclusion, diethylamine (二乙胺) is a versatile compound with significant applications in chemistry, pharmaceuticals, and agriculture. Its properties as a base and its role in drug synthesis make it invaluable in various industries. However, the potential hazards associated with its use necessitate careful handling and adherence to safety guidelines. As research continues to explore new applications and derivatives of diethylamine (二乙胺), it is likely that its importance in scientific and industrial contexts will only grow in the future.
