quinol
简明释义
n. 对苯二酚;[有化] 醌醇
英英释义
单词用法
同义词
| 氢醌 | 氢醌常用于皮肤美白产品中。 | ||
| 1,4-二羟基苯 | 1,4-Dihydroxybenzene is used as a reducing agent in chemical reactions. | 1,4-二羟基苯在化学反应中用作还原剂。 |
反义词
| 醌 | 醌常用于有机合成。 | ||
| 氧化形式 | 醇的氧化形式更稳定。 |
例句
1.Quinone can be reduced to quinol by NADH in the presence of NADH-dehydrogenase.
在NADH脱氢酶存在下,NADH可将对苯醌还原为对苯二酚。
2.Quinone can be reduced to quinol by NADH in the presence of NADH-dehydrogenase.
在NADH脱氢酶存在下,NADH可将对苯醌还原为对苯二酚。
3.The research team discovered a new method to synthesize quinol 喹啉 derivatives that could be used in pharmaceuticals.
研究小组发现了一种合成quinol喹啉衍生物的新方法,这些衍生物可用于制药。
4.The presence of quinol 喹啉 in the sample indicated a specific reaction had taken place.
样品中存在quinol喹啉表明特定反应已发生。
5.The compound quinol 喹啉 is known for its role as an intermediate in various chemical reactions.
化合物quinol喹啉因其在各种化学反应中充当中间体而闻名。
6.Researchers are exploring the use of quinol 喹啉 in developing new anti-cancer drugs.
研究人员正在探索使用quinol喹啉开发新型抗癌药物。
7.In the laboratory, we analyzed the properties of quinol 喹啉 to understand its potential applications in organic chemistry.
在实验室中,我们分析了quinol喹啉的性质,以了解其在有机化学中的潜在应用。
作文
Quinol is a compound that plays an important role in various chemical processes and has significant applications in the field of organic chemistry. It is a type of phenolic compound, specifically known as 1,2-dihydroxybenzene. The structure of quinol (喹啉) consists of a benzene ring with two hydroxyl groups (-OH) attached to adjacent carbon atoms. This unique structure imparts specific properties to quinol (喹啉), making it a valuable substance in both industrial and academic settings.One of the most notable applications of quinol (喹啉) is in the synthesis of dyes and pigments. Due to its ability to participate in various chemical reactions, quinol (喹啉) can be used as a precursor for creating vibrant colors that are used in textiles and other materials. Additionally, the presence of hydroxyl groups in quinol (喹啉) enhances its reactivity, allowing it to form complexes with metals, which can further contribute to its utility in dye production.Furthermore, quinol (喹啉) is also significant in the field of pharmaceuticals. Researchers have found that this compound exhibits various biological activities, including antibacterial and antioxidant properties. This has led to the exploration of quinol (喹啉) derivatives as potential therapeutic agents. For instance, certain quinol (喹啉) derivatives have shown promise in treating conditions such as cancer and neurodegenerative diseases. The ongoing research into the medicinal properties of quinol (喹啉) highlights its importance in drug development and the potential for new treatments.Moreover, the environmental implications of quinol (喹啉) cannot be overlooked. As a byproduct of various industrial processes, quinol (喹啉) can be released into the environment, leading to potential ecological concerns. Understanding the behavior and degradation of quinol (喹啉) in natural systems is crucial for developing strategies to mitigate its impact. Researchers are actively studying the pathways through which quinol (喹啉) can be broken down in the environment, which is essential for maintaining ecological balance and protecting biodiversity.In conclusion, quinol (喹啉) is a multifaceted compound with diverse applications ranging from dye production to pharmaceutical development. Its unique chemical structure and properties make it a subject of interest in various scientific fields. As research continues to unveil the potential uses of quinol (喹啉), it is clear that understanding this compound is vital not only for advancing technology and medicine but also for addressing environmental challenges. The future of quinol (喹啉) research promises exciting developments that could lead to innovative solutions in multiple domains.
喹啉是一种在各种化学过程中发挥重要作用的化合物,并且在有机化学领域具有重要应用。它是一种酚类化合物,具体被称为1,2-二羟基苯。quinol(喹啉)的结构由一个苯环和两个羟基(-OH)组成,这两个羟基附着在相邻的碳原子上。这种独特的结构赋予了quinol(喹啉)特定的性质,使其在工业和学术环境中成为一种宝贵的物质。quinol(喹啉)最显著的应用之一是在染料和颜料的合成中。由于其参与各种化学反应的能力,quinol(喹啉)可以作为制造用于纺织品和其他材料的鲜艳颜色的前体。此外,quinol(喹啉)中的羟基的存在增强了其反应性,使其能够与金属形成络合物,这进一步增加了其在染料生产中的实用性。此外,quinol(喹啉)在制药领域也具有重要意义。研究人员发现这种化合物表现出多种生物活性,包括抗菌和抗氧化特性。这导致了对quinol(喹啉)衍生物作为潜在治疗剂的探索。例如,某些quinol(喹啉)衍生物在治疗癌症和神经退行性疾病方面显示出希望。对quinol(喹啉)药理特性的持续研究突显了其在药物开发中的重要性以及新治疗方法的潜力。此外,quinol(喹啉)的环境影响也不容忽视。作为各种工业过程的副产品,quinol(喹啉)可能会释放到环境中,导致潜在的生态问题。了解quinol(喹啉)在自然系统中的行为和降解对于制定减轻其影响的策略至关重要。研究人员正在积极研究quinol(喹啉)在环境中分解的途径,这对保持生态平衡和保护生物多样性至关重要。总之,quinol(喹啉)是一种多面向的化合物,具有从染料生产到制药开发的多种应用。其独特的化学结构和性质使其成为各个科学领域的研究对象。随着研究不断揭示quinol(喹啉)的潜在用途,显然理解这一化合物对于推动技术和医学进步以及应对环境挑战至关重要。quinol(喹啉)研究的未来承诺将带来激动人心的发展,这可能会导致多个领域中的创新解决方案。
