tolyl
简明释义
n. 甲苯基
英英释义
A tolyl group is a functional group derived from toluene, consisting of a methyl group (–CH3) attached to a phenyl group (–C6H5). | 托烯基是由甲苯衍生的功能团,由一个甲基(–CH3)连接到一个苯基(–C6H5)上。 |
单词用法
甲苯醇 | |
甲苯氯 | |
甲苯磺酸 | |
2-甲苯基 | |
4-甲苯基 |
同义词
| 甲基苯基 | Tolyl is often used in organic synthesis as a substituent group. | Tolyl常用于有机合成中作为取代基。 | |
| 苯基甲基 | Methylphenyl compounds are important in the production of various chemicals. | 甲基苯基化合物在各种化学品的生产中非常重要。 |
反义词
例句
1.Conclusion: The O-tolyl isocyanide was detected from essential oil of Lonicera for the first time.
结论:首次报道在忍冬属植物挥发油中检测出邻甲苯异腈;
2.In the synthesis of N-(o-tolyl)-thiourea from o-toluidine, some effective measures were taken so that the quality of the product was improved and the reaction conditions were optimized.
从邻甲苯胺合成N-邻甲苯基硫脲,对如何提高产物质量,采取了一些有效的措施,获得了最优工艺条件。
3.The effects of the ratio of reactants to organic solvent, reaction temperature and concentration of aqueous sodium hydroxide on the yield of trim-tolyl phosphate were investigated.
以该反应收率为目标,研究了反应物料与有机溶剂的配比、反应温度和碱液浓度等因素的影响。
4.In the synthesis of N-(o-tolyl)-thiourea from o-toluidine, some effective measures were taken so that the quality of the product was improved and the reaction conditions were optimized.
从邻甲苯胺合成N-邻甲苯基硫脲,对如何提高产物质量,采取了一些有效的措施,获得了最优工艺条件。
5.The reaction involving tolyl 托烯基 was monitored carefully for any side products.
涉及托烯基的反应被仔细监测以观察任何副产物。
6.In the laboratory, we tested the reactivity of tolyl 托烯基 compounds with various reagents.
在实验室,我们测试了不同试剂与托烯基化合物的反应性。
7.The tolyl 托烯基 group is often used in organic synthesis.
托烯基基团常用于有机合成。
8.Researchers discovered that tolyl 托烯基 compounds have unique properties.
研究人员发现托烯基化合物具有独特的性质。
9.The chemist synthesized a new compound using tolyl 托烯基 derivatives.
化学家利用托烯基衍生物合成了一种新化合物。
作文
In the world of chemistry, understanding various compounds and their structures is crucial. One such compound that often comes up in organic chemistry is tolyl. The term tolyl refers to a group derived from toluene, which is a colorless liquid with a characteristic smell. Toluene itself is an aromatic hydrocarbon, and when we talk about tolyl, we are usually referring to its derivatives where one hydrogen atom on the toluene molecule is replaced by another functional group. This simple substitution can lead to a variety of interesting chemical behaviors and properties. The significance of tolyl compounds extends beyond academic interest; they play a vital role in many industrial applications. For instance, tolyl groups are often found in dyes, pharmaceuticals, and even in the production of plastics. Their unique structure allows them to interact with other molecules in specific ways, making them valuable in the synthesis of complex chemical products. To illustrate the importance of tolyl, consider its use in the pharmaceutical industry. Many drugs have tolyl moieties that enhance their efficacy and bioavailability. For example, certain anti-inflammatory medications contain tolyl groups that help them bind effectively to biological targets within the body. This highlights how a seemingly simple structure can lead to significant advancements in medical science. Moreover, the study of tolyl compounds helps chemists understand reaction mechanisms better. By analyzing how tolyl derivatives react under different conditions, researchers can gain insights into the stability and reactivity of similar compounds. This knowledge is essential for developing new materials and improving existing ones. In addition to its practical applications, tolyl also serves as an excellent example of the beauty of organic chemistry. The ability to manipulate and modify such a basic structure opens up a world of possibilities for creating new substances with tailored properties. Chemists often enjoy working with tolyl compounds because they provide a perfect balance of simplicity and complexity. In conclusion, the term tolyl encapsulates a fascinating area of study within organic chemistry. Its derivatives are not only pivotal in various industries but also serve as a gateway to deeper understanding of chemical interactions. Whether in the lab or in real-world applications, tolyl continues to be a subject of great interest and importance for chemists around the globe. As we advance our knowledge in this field, the potential for innovation remains limitless, driven by the fundamental structures like tolyl that form the basis of so many complex molecules. The exploration of tolyl and its derivatives is just one example of how chemistry can impact our lives. From the medicines we take to the materials we use every day, understanding compounds like tolyl is essential for both scientific progress and everyday applications.
在化学的世界里,理解各种化合物及其结构至关重要。其中一个经常出现的化合物是tolyl。术语tolyl指的是一种来自甲苯的基团,甲苯是一种无色液体,具有特征性的气味。甲苯本身是一种芳香烃,当我们谈论tolyl时,通常是指其衍生物,其中甲苯分子上的一个氢原子被其他官能团替代。这种简单的取代可以导致多种有趣的化学行为和性质。tolyl化合物的重要性不仅限于学术兴趣;它们在许多工业应用中发挥着至关重要的作用。例如,tolyl基团通常出现在染料、药品,甚至塑料的生产中。它们独特的结构使它们能够以特定的方式与其他分子相互作用,从而在复杂化学产品的合成中变得有价值。为了说明tolyl的重要性,可以考虑它在制药行业中的应用。许多药物含有tolyl部分,这增强了它们的有效性和生物利用度。例如,某些抗炎药物含有tolyl基团,有助于它们有效结合生物体内的生物靶标。这突显了看似简单的结构如何导致医学科学的重大进展。此外,研究tolyl化合物有助于化学家更好地理解反应机制。通过分析tolyl衍生物在不同条件下的反应,研究人员可以深入了解类似化合物的稳定性和反应性。这一知识对于开发新材料和改善现有材料至关重要。除了其实际应用外,tolyl还很好地展示了有机化学之美。能够操控和修改如此基本的结构为创造具有特定性质的新物质打开了一个无限可能的世界。化学家们通常喜欢处理tolyl化合物,因为它们提供了简单性和复杂性的完美平衡。总之,术语tolyl概括了有机化学中一个迷人的研究领域。它的衍生物不仅在各个行业中至关重要,而且也是深入理解化学相互作用的一个入口。无论是在实验室还是在现实应用中,tolyl继续成为全球化学家极大的兴趣和重要性的主题。随着我们在这一领域的知识不断进步,创新的潜力仍然是无限的,由像tolyl这样的基本结构推动,它们构成了许多复杂分子的基础。探索tolyl及其衍生物只是化学如何影响我们生活的一个例子。从我们服用的药物到我们每天使用的材料,理解像tolyl这样的化合物对科学进步和日常应用都是必不可少的。
