sulfuryl
简明释义
n. [有化]磺酰(等于 sulphuryl)
英英释义
A chemical compound containing sulfur in the form of a sulfonyl group, often used in various industrial applications. | 一种含有硫的化合物,以磺酰基的形式存在,常用于各种工业应用。 |
单词用法
二氟化硫酰 | |
硫酰气体 | |
硫酰化合物 | |
硫酰衍生物 |
同义词
反义词
| 氧 | 氧气对人类呼吸至关重要。 | ||
| 氮 | 氮气占据地球大气的约78%。 |
例句
1.Objective To determine the impact of temperature and relative humidity on sulfuryl fluoride fumigation against rats.
目的观察温度和相对湿度对硫酰氟熏蒸灭鼠效果的影响。
2.Methods The study was conducted in a simulated fumigation container in order to determine the impact of temperature, humidity and sulfuryl fluoride doses on the fumigation against rats.
方法试验在模拟熏蒸箱内进行,均匀设计实验方案,通过单因素和多因素分析判断温度、湿度和剂量对硫酰氟熏蒸灭鼠效果的影响。
3.Toxicity of sulfuryl fluoride on pest and plant seeds was studied.
研究了硫酰氟对害虫、植物种子等的毒性。
4.Methods The study was conducted in a simulated fumigation container in order to determine the impact of temperature, humidity and sulfuryl fluoride doses on the fumigation against rats.
方法试验在模拟熏蒸箱内进行,均匀设计实验方案,通过单因素和多因素分析判断温度、湿度和剂量对硫酰氟熏蒸灭鼠效果的影响。
5.Using 3, 5-dimethyl phenol as raw materials, sulfuryl chloride as chlorination reagent and carbon tetrachloride as solvent to synthesize chloroxylenol.
以3,5 -二甲酚为原料,硫酰氯为氯化剂、四氯化碳为溶剂,合成对氯间二甲酚。
6.Safety measures are crucial when handling sulfuryl due to its toxic nature.
由于其毒性,处理硫酰时采取安全措施至关重要。
7.The compound sulfuryl is often used in the production of pesticides.
化合物硫酰常用于农药的生产。
8.Farmers use sulfuryl to control pests effectively.
农民使用硫酰有效控制害虫。
9.The gas released from sulfuryl can be harmful if inhaled in large quantities.
从硫酰释放的气体如果大量吸入可能有害。
10.In the laboratory, we analyzed the effects of sulfuryl on plant growth.
在实验室中,我们分析了硫酰对植物生长的影响。
作文
In the realm of chemistry, various compounds play critical roles in both industrial applications and environmental processes. One such compound that has garnered attention is sulfuryl, a chemical species that contains sulfur and is often associated with several important reactions. Understanding sulfuryl can provide insights into its applications and implications in our daily lives. Sulfuryl is primarily known as a part of sulfur dioxide (SO2) and sulfur trioxide (SO3), which are significant in atmospheric chemistry and pollution studies. The presence of sulfuryl in these compounds makes it crucial for understanding acid rain formation, which poses a threat to ecosystems and human health. When sulfur oxides are released into the atmosphere, they can react with water vapor to form sulfuric acid, leading to the phenomenon known as acid rain. This process illustrates the importance of sulfuryl in environmental science, as it highlights the need for regulations to limit sulfur emissions from industrial sources.Moreover, sulfuryl compounds are not only relevant in environmental contexts but also in various industrial applications. For instance, sulfuryl fluoride is used as a fumigant for pest control in agriculture. Its effectiveness in eliminating pests without leaving harmful residues makes it a popular choice among farmers. However, the use of sulfuryl fluoride raises concerns about its potential impact on human health and the environment. As such, ongoing research is necessary to evaluate the safety and efficacy of sulfuryl compounds in pest management.In addition to agricultural uses, sulfuryl is also involved in the production of sulfuric acid, one of the most widely produced chemicals globally. Sulfuric acid is essential in the manufacture of fertilizers, batteries, and other industrial products. The role of sulfuryl in this process underscores its significance in the chemical industry and the economy at large. Understanding the chemical properties and reactions involving sulfuryl can help chemists develop more efficient production methods and reduce waste.Furthermore, the study of sulfuryl extends into the field of biochemistry. Certain biological processes involve sulfur-containing compounds, and understanding sulfuryl can shed light on metabolic pathways and the role of sulfur in living organisms. For example, some amino acids contain sulfur, which is vital for protein synthesis and enzyme function. By exploring the connections between sulfuryl and biological systems, researchers can gain a deeper understanding of life at the molecular level.In conclusion, sulfuryl is a compound with significant implications across various fields, from environmental science to industrial applications and biochemistry. Its role in pollution, pest control, chemical manufacturing, and biological processes makes it a subject worthy of study. As we continue to explore the intricacies of sulfuryl and its compounds, we can better appreciate the delicate balance between utilizing these chemicals for human benefit while also safeguarding our environment and health. The future of research on sulfuryl holds promise for developing innovative solutions that address the challenges posed by its use, ensuring a sustainable approach to chemistry and industry.
在化学领域,各种化合物在工业应用和环境过程中发挥着重要作用。其中一个引起关注的化合物是sulfuryl,一种含硫的化学物质,通常与几种重要反应相关。理解sulfuryl可以为我们提供对其在日常生活中应用和影响的深入见解。Sulfuryl主要作为二氧化硫(SO2)和三氧化硫(SO3)的一部分而闻名,这些物质在大气化学和污染研究中具有重要意义。Sulfuryl在这些化合物中的存在使其在理解酸雨形成中至关重要,这对生态系统和人类健康构成威胁。当硫氧化物释放到大气中时,它们可以与水蒸气反应生成硫酸,从而导致被称为酸雨的现象。这个过程说明了sulfuryl在环境科学中的重要性,因为它突显了限制工业源硫排放的必要性。此外,sulfuryl化合物不仅在环境背景中相关,而且在各种工业应用中也很重要。例如,sulfuryl氟化物被用作农业害虫控制的熏蒸剂。它在消灭害虫方面的有效性而不留下有害残留物,使其成为农民的热门选择。然而,使用sulfuryl氟化物也引发了对其对人类健康和环境潜在影响的担忧。因此,持续的研究对于评估sulfuryl化合物在害虫管理中的安全性和有效性是必要的。除了农业用途,sulfuryl还参与了硫酸的生产,硫酸是全球生产量最大的化学品之一。硫酸在制造肥料、电池和其他工业产品中至关重要。Sulfuryl在这一过程中的角色突显了其在化学工业和整体经济中的重要性。理解涉及sulfuryl的化学性质和反应可以帮助化学家开发更高效的生产方法并减少废物。此外,对sulfuryl的研究还延伸到生物化学领域。某些生物过程涉及含硫化合物,理解sulfuryl可以揭示代谢途径和硫在生物体中的作用。例如,一些氨基酸含有硫,这是蛋白质合成和酶功能所必需的。通过探索sulfuryl与生物系统之间的联系,研究人员可以更深入地理解分子层面的生命。总之,sulfuryl是一个在各个领域具有重要意义的化合物,从环境科学到工业应用再到生物化学。它在污染、害虫控制、化学制造和生物过程中的作用使其成为值得研究的对象。随着我们继续探索sulfuryl及其化合物的复杂性,我们可以更好地欣赏利用这些化学物质以造福人类的同时,也保护我们的环境和健康之间的微妙平衡。未来关于sulfuryl的研究有望开发出创新的解决方案,以应对其使用带来的挑战,确保化学和工业的可持续发展。
