thiazine
简明释义
n. [有化] 噻嗪,硫氮杂苯
英英释义
A class of heterocyclic compounds containing a five-membered ring with two nitrogen atoms and three carbon atoms, often used in pharmaceuticals. | 一类含有两个氮原子和三个碳原子的五元环的杂环化合物,常用于药物中。 |
单词用法
噻嗪衍生物 | |
噻嗪染料 | |
噻嗪环结构 | |
基于噻嗪的化合物 |
同义词
| 噻唑 | Thiazole is often used in the synthesis of various pharmaceuticals. | 噻唑常用于各种药物的合成中。 | |
| 苯并噻唑 | 苯并噻唑常用作橡胶促进剂。 |
反义词
| 噻唑烷二酮 | Thiazolidinediones are used in the treatment of type 2 diabetes. | 噻唑烷二酮用于治疗2型糖尿病。 | |
| 磺胺类药物 | 磺胺类药物是发现的第一批抗生素之一。 |
例句
1.Objective: to characterize the clinical features and the treatment of photosensitivity dermatitis induced by thiazine diuretics.
目的:探讨噻嗪类利尿药引起光敏性皮炎的临床特点及治疗。
2.Objective: to characterize the clinical features and the treatment of photosensitivity dermatitis induced by thiazine diuretics.
目的:探讨噻嗪类利尿药引起光敏性皮炎的临床特点及治疗。
3.Researchers found that thiazine 噻嗪类 derivatives can enhance the effectiveness of certain antibiotics.
研究人员发现,噻嗪类衍生物可以增强某些抗生素的效果。
4.The drug is a type of thiazine 噻嗪类 compound used to treat hypertension.
这种药物是一种用于治疗高血压的噻嗪类化合物。
5.The mechanism of action for thiazine 噻嗪类 diuretics involves inhibiting sodium reabsorption.
噻嗪类利尿剂的作用机制涉及抑制钠的再吸收。
6.Pharmacologists are studying the potential of new thiazine 噻嗪类 compounds in cancer treatment.
药理学家正在研究新的噻嗪类化合物在癌症治疗中的潜力。
7.In clinical trials, patients taking thiazine 噻嗪类 medications reported fewer side effects.
在临床试验中,服用噻嗪类药物的患者报告的副作用较少。
作文
Thiazine is a term that refers to a class of organic compounds containing a five-membered heterocyclic ring made up of three carbon atoms, one sulfur atom, and one nitrogen atom. These compounds are significant in various fields, including chemistry, agriculture, and medicine. Understanding the properties and applications of thiazine (噻嗪) can provide insights into their role in different industries.In the field of chemistry, thiazine (噻嗪) derivatives are often synthesized for their unique chemical properties. For instance, they can exhibit interesting reactivity patterns due to the presence of both sulfur and nitrogen in their structure. This makes them valuable in the development of new materials and chemicals. Researchers have been exploring the potential of thiazine (噻嗪) compounds in creating dyes and pigments, which are essential in the textile and paint industries. The vibrant colors produced by these dyes can enhance the aesthetic appeal of various products.Moreover, thiazine (噻嗪) compounds have found applications in agriculture, particularly as herbicides and fungicides. Their effectiveness in controlling pests and diseases has made them a popular choice among farmers looking to protect their crops. By inhibiting the growth of unwanted plants and pathogens, thiazine (噻嗪) based agrochemicals can help increase agricultural productivity. However, it is crucial to use these chemicals responsibly to minimize potential environmental impacts.In the medical field, some thiazine (噻嗪) derivatives have been developed for therapeutic purposes. For example, thiazide diuretics, which are a class of medications used to treat hypertension and edema, are based on the thiazine (噻嗪) structure. These medications work by promoting the excretion of sodium and water from the body, thereby reducing blood volume and lowering blood pressure. Understanding the mechanism of action of thiazine (噻嗪) diuretics can aid healthcare professionals in prescribing appropriate treatments for patients with cardiovascular conditions.Additionally, the study of thiazine (噻嗪) compounds has led to advancements in the field of pharmacology. Researchers are continuously investigating new thiazine (噻嗪) derivatives that could potentially lead to the development of novel drugs with improved efficacy and fewer side effects. This ongoing research highlights the importance of thiazine (噻嗪) compounds in the quest for better healthcare solutions.In conclusion, thiazine (噻嗪) is a versatile class of compounds with significant implications across various domains, including chemistry, agriculture, and medicine. Their unique structural features and properties make them valuable in the synthesis of dyes, the development of agrochemicals, and the formulation of pharmaceutical drugs. As research continues to uncover the potential of thiazine (噻嗪) compounds, we can expect to see further innovations that will benefit society in numerous ways. Understanding and mastering the concept of thiazine (噻嗪) will undoubtedly contribute to advancements in science and technology, paving the way for a brighter future.
