thionyl

简明释义

[ˈθaɪənɪl][ˈθaɪənɪl]

n. 亚硫酰

英英释义

Thionyl is a chemical compound that contains sulfur and oxygen, typically represented as SOCl2, used primarily as a reagent in organic synthesis.

亚硫酰是一种含有硫和氧的化合物,通常表示为SOCl2,主要用作有机合成中的试剂。

单词用法

thionyl chloride

[化]亚硫酰氯

同义词

sulforyl

硫酰

Thionyl chloride is commonly used in organic synthesis.

氯化亚磷常用于有机合成。

thiolyl

硫醇基

Sulforyl compounds are often involved in various chemical reactions.

硫酰化合物通常参与各种化学反应。

反义词

oxygen

Oxygen is essential for respiration in most living organisms.

氧对大多数生物的呼吸是必不可少的。

hydroxyl

羟基

Hydroxyl groups are important in organic chemistry for their reactivity.

羟基在有机化学中因其反应性而重要。

例句

1.The domestic production, demand, import and export of thionyl chloride are analyzed.

分析了氯化亚砜国内生产、需求、进出口情况。

2.The 2,4,6-tribromophenyl acrylate was prepared from acrylic acid, thionyl chloride and tribromophenol by two steps in suitable condition.

以丙烯酸、氯化亚砜、2,4,6-三溴苯酚为基本原料,选择适宜的工艺条件通过两步法合成了2,4, 6-三溴丙烯酸苯酯。

3.So why don't you tell me what the formal charge should be on the sulfur atom of thionyl chloride?

那么请大家来告诉我亚硫酰氯中,的硫原子应该有多少形式电荷?

4.Synthesis methods of thionyl chloride such as HSO 3Cl method, SO 2 method, SO 3 method, co production method and enterprises adopting above methods are evaluated.

评述了氯磺酸法、三氧化硫法、二氧化硫法、联产法等氯化亚砜合成方法及其采用这些合成方法的生产企业情况;

5.The function modification of carbon nanotubes has been obtained by mixed acid and thionyl chloride treatment, spectral analysis present a contrast between treated CNTs and untreated ones.

分别采用混酸和氯化亚砜处理,实现了对碳纳米管不同的官能化修饰,并对处理前后的碳纳米管进行了光谱分析。

6.The function modification of carbon nanotubes has been obtained by mixed acid and thionyl chloride treatment, spectral analysis present a contrast between treated CNTs and untreated ones.

分别采用混酸和氯化亚砜处理,实现了对碳纳米管不同的官能化修饰,并对处理前后的碳纳米管进行了光谱分析。

7.Naproxin was treated by thionyl chloride, then conjugated to Phaeophorbide under protection of N2. The compound was purified by silica gel column.

用二氯亚砜将萘普生酰氯化,在氮气保护下与脱镁叶绿酸交联,以硅胶柱层析分离产物。

8.It is indicated that the overall technologies of thionyl chloride production should be improved in our country.

提出我国尚需提高氯化亚砜生产装置的整体科技水平。

9.In organic synthesis, thionyl 硫酰 chloride is often used as a reagent.

在有机合成中,thionyl 硫酰氯化物常用作试剂。

10.The synthesis of certain pharmaceuticals involves thionyl 硫酰 derivatives.

某些药物的合成涉及thionyl 硫酰衍生物。

11.The chemical reaction produced a byproduct containing thionyl 硫酰 chloride.

该化学反应产生了一种含有thionyl 硫酰氯化物的副产品。

12.Researchers are studying the effects of thionyl 硫酰 on various biological systems.

研究人员正在研究thionyl 硫酰对各种生物系统的影响。

13.The laboratory safely stored thionyl 硫酰 compounds to prevent any hazardous reactions.

实验室安全地储存了thionyl 硫酰化合物,以防止任何危险反应。

作文

Thionyl is a compound that has garnered attention in various scientific fields due to its unique chemical properties and applications. It is primarily known for its use in organic synthesis and as a reagent in the production of other chemicals. In the realm of chemistry, understanding compounds like thionyl (硫酰) can lead to significant advancements in both theoretical and applied sciences.One of the most interesting aspects of thionyl (硫酰) is its role in the synthesis of phosphorothioates. These compounds are essential in the development of pesticides and herbicides, making thionyl (硫酰) an important player in agricultural chemistry. By facilitating the introduction of sulfur into organic molecules, thionyl (硫酰) helps chemists create more effective and environmentally friendly agricultural products.Moreover, thionyl (硫酰) is also utilized in the field of battery technology. It has been found to be a crucial component in the production of certain types of batteries, particularly those that require high energy density and stability. The presence of thionyl (硫酰) in these batteries enhances their performance, making them more efficient and longer-lasting. This application highlights the versatility of thionyl (硫酰) and its importance in modern technological advancements.In addition to its practical applications, the study of thionyl (硫酰) also raises intriguing questions about its reactivity and behavior under different conditions. Researchers are continually exploring how thionyl (硫酰) interacts with other chemical species, which can lead to the discovery of new reactions and pathways in organic chemistry. Understanding these interactions not only enriches our knowledge of chemical processes but also opens up new avenues for innovation in various fields.Safety is another critical consideration when working with thionyl (硫酰). As with many chemical compounds, it is essential to handle thionyl (硫酰) with care to avoid potential hazards. Proper safety protocols must be followed to ensure that researchers and workers are protected from any toxic effects associated with this compound. This aspect emphasizes the responsibility that comes with scientific research and the importance of adhering to safety guidelines.In conclusion, thionyl (硫酰) is a fascinating compound that plays a significant role in various scientific and industrial applications. From its contributions to agriculture and battery technology to its implications in chemical research, the study of thionyl (硫酰) offers valuable insights into the world of chemistry. As we continue to explore the properties and uses of this compound, it is clear that thionyl (硫酰) will remain an important subject of study for years to come.