triethyl
简明释义
adj. 三乙基的
英英释义
A chemical compound consisting of three ethyl groups attached to a central atom or molecule. | 一种化学化合物,由三个乙基团附着在一个中心原子或分子上。 |
单词用法
磷酸三乙酯 |
同义词
三乙胺 | Triethylamine is commonly used as a catalyst in organic synthesis. | 三乙胺常用作有机合成中的催化剂。 | |
三乙基磷酸酯 | Triethyl phosphate is often used as a flame retardant and plasticizer. | 三乙基磷酸酯通常用作阻燃剂和增塑剂。 |
反义词
单甲基 | Monomethylamine is used in the synthesis of various chemicals. | 单甲基胺用于合成各种化学品。 | |
双甲基 | Dimethyl sulfoxide (DMSO) is a common solvent in organic chemistry. | 二甲基亚砜(DMSO)是有机化学中常用的溶剂。 |
例句
1.METHODS 5-amino-1-hydroxyethyl pyrazole-4-carboylic acid was synthesized through condensation of ethyl cyanoacetate and triethyl orthoformate followed by one-pot methodology of cyclization, hydolysis.
方法原甲酸三乙酯与氰乙酸乙酯缩合,然后和羟乙基肼经环合、水解等一锅法合成5-氨基吡唑-4-甲酸,然后在亚硫酸钠存在条件下加热脱羧得到5-氨基-1-羟乙基吡唑。
2.Triethyl orthoacetate in reaction mixtures was separated from other components and determined by gas chromatography with external standard method.
应用气相色谱法测定制备原乙酸三乙酯反应产物中产品质量。
3.Cyclohexanone diethyl acetal was prepared from cyclohexanone with anhydrous ethanol as reactant, ammonium chloride as catalyst, triethyl orthoformate as water scavenger.
其制备方法是以氯化铵为催化剂,原甲酸三乙酯为解水剂,由无水乙醇和环己酮缩合合成。
4.Aim \ Enanthal diethyl acetal is prepared with heptaldehyde and triethyl orthoformate as raw materials.
目的研究以庚醛和原甲酸三乙酯为原料制备庚醛二乙缩醛的工艺条件。
5.This article studies benzyl - triethyl ammonium chloride as catalyst of phase - transfer to prepare for phenyl acetate. Get the best operating condition and get the yield of 86%.
研究了以苄基三乙基氯化铵为相转移催化剂制备乙酸苄酯,得出了最佳操作条件,使反应收率达86%。
6.To remedy this limitation, a number of low molecular weight plasticisers such as glycerol, sorbitol and triethyl citrate are used.
为了解决这个限制,一个低分子量增塑剂如甘油数量,山梨醇,柠檬酸三乙酯使用。
7.Before starting the experiment, make sure to measure the amount of triethyl carefully.
在开始实验之前,请确保仔细测量三乙基的量。
8.The compound known as triethyl is often used as a solvent in organic chemistry.
被称为三乙基的化合物通常用作有机化学中的溶剂。
9.Researchers synthesized a new polymer using triethyl phosphate as a plasticizer.
研究人员使用三乙基磷酸酯合成了一种新型聚合物作为增塑剂。
10.The reaction required triethyl aluminum as a reducing agent.
该反应需要三乙基铝作为还原剂。
11.In the laboratory, triethyl amine is commonly used as a base for various reactions.
在实验室中,三乙基胺常用作各种反应的碱。
作文
In the field of chemistry, understanding different compounds and their structures is crucial for various applications. One such compound that often comes up in organic chemistry is triethyl. The term triethyl refers to a specific type of chemical structure where three ethyl groups (C2H5) are attached to a central atom or molecule. This can significantly influence the properties and reactivity of the compound in question. For instance, when we consider triethylamine, which is a derivative of ammonia, we see how the addition of three ethyl groups alters its characteristics compared to other amines. Triethyl compounds are often used as solvents, reagents, or catalysts in various chemical reactions.The significance of triethyl compounds extends beyond just their chemical properties. In industrial applications, these compounds play a vital role in the synthesis of various materials. For example, triethyl phosphate is widely used as a flame retardant and plasticizer. Its ability to integrate into polymers makes it an essential additive in the manufacturing of plastics. Moreover, the presence of triethyl groups can enhance the solubility and stability of certain compounds, making them more effective in various formulations.Furthermore, the study of triethyl compounds also opens up discussions about the environmental impact of chemical usage. As industries strive towards sustainability, understanding the behavior of such compounds can help in developing greener alternatives. Researchers are exploring ways to minimize the ecological footprint of triethyl derivatives by investigating biodegradable options that do not compromise performance.In academia, triethyl compounds serve as an excellent example for students learning about organic chemistry. They provide a tangible way to understand concepts like functional groups, molecular structure, and reactivity. Students can conduct experiments involving triethyl compounds to observe chemical reactions firsthand, solidifying their theoretical knowledge through practical application.Moreover, the versatility of triethyl compounds allows for their use in various fields beyond chemistry. In pharmaceuticals, for instance, triethyl groups can modify drug molecules to improve their efficacy and bioavailability. By altering the chemical structure, chemists can create more effective medications that target specific conditions with minimal side effects.In conclusion, the term triethyl encapsulates a significant aspect of organic chemistry, representing a structure that has far-reaching implications in both academic and industrial contexts. As we continue to explore the vast world of chemical compounds, understanding terms like triethyl becomes increasingly important. It not only enhances our comprehension of chemical interactions but also guides us in the development of innovative solutions that address modern challenges. Whether in the lab or in industry, the relevance of triethyl compounds is undeniable, and their study will undoubtedly continue to evolve as we push the boundaries of chemical science.
在化学领域,理解不同的化合物及其结构对于各种应用至关重要。其中一个常见的化合物是triethyl。术语triethyl指的是一种特定类型的化学结构,其中三个乙基(C2H5)附着在一个中心原子或分子上。这可以显著影响相关化合物的性质和反应性。例如,当我们考虑三乙胺时,它是氨的衍生物,我们看到加入三个乙基组如何改变其与其他胺类的特性。Triethyl化合物常用于溶剂、试剂或催化剂,在各种化学反应中发挥作用。Triethyl化合物的重要性不仅仅体现在它们的化学性质上。在工业应用中,这些化合物在合成各种材料方面发挥着重要作用。例如,triethyl磷酸酯广泛用作阻燃剂和增塑剂。它能够融入聚合物,使其成为塑料制造中的重要添加剂。此外,triethyl基团的存在可以增强某些化合物的溶解性和稳定性,使其在各种配方中更有效。此外,研究triethyl化合物还引发了关于化学使用环境影响的讨论。随着工业界努力实现可持续发展,理解这些化合物的行为可以帮助开发更环保的替代品。研究人员正在探索减少triethyl衍生物生态足迹的方法,寻找不妥协性能的可生物降解选项。在学术界,triethyl化合物为学习有机化学的学生提供了很好的例子。它们提供了一种切实的方式来理解功能团、分子结构和反应性等概念。学生们可以进行涉及triethyl化合物的实验,以亲身观察化学反应,从而通过实践应用巩固他们的理论知识。此外,triethyl化合物的多功能性使其在化学以外的各个领域都能得到应用。在制药行业,例如,triethyl基团可以修改药物分子,以提高其疗效和生物利用度。通过改变化学结构,化学家可以创造出更有效的药物,针对特定疾病,同时减少副作用。总之,术语triethyl概括了有机化学的重要方面,代表了一种具有深远意义的结构,在学术和工业背景中都有重要影响。随着我们继续探索化学化合物的广阔世界,理解像triethyl这样的术语变得越来越重要。它不仅增强了我们对化学相互作用的理解,还指导我们开发创新解决方案,以应对现代挑战。无论是在实验室还是在工业中,triethyl化合物的相关性都是不可否认的,它们的研究无疑将随着我们推动化学科学的边界而不断演变。