trisulfide

简明释义

英[traɪˈsʌlfaɪd]美[traɪˈsʌlˌfaɪd]

n. [化学] 三硫化物

英英释义

单词用法

同义词

反义词

例句

1."Jeff" brand antimony ingots, antimony trioxide, antimony trisulfide up in domestic and overseas markets has won a good reputation.

“杰夫”牌锑锭、三氧化二锑、硫化锑在国内外市场上已赢得了良好的声誉。

2.Allyl trisulfide was prepared with PEG-400 as phase transfer catalyst to raise the yield of the product and the content of the allyl trisulfide in the product.

以PEG- 400为相转移催化剂合成三硫二丙烯，以提高收率和产品中三硫二丙烯含量。

3.Conclusion: Diallyl trisulfide microspheres have obviously sustained effect.

结论：聚乳酸大蒜素微球具有良好的缓释作用。

4.Allyl trisulfide was prepared with PEG-400 as phase transfer catalyst to raise the yield of the product and the content of the allyl trisulfide in the product.

以PEG- 400为相转移催化剂合成三硫二丙烯，以提高收率和产品中三硫二丙烯含量。

5.The garlic flavoring was compounded finally with allyl trisulfide, allyl tetrasulfide and other sulfur containing flavor compounds.

以合成的二烯丙基三硫、二烯丙基四硫和其他的含硫香料为原料，调配出了大蒜香精。

6.In organic chemistry, trisulfide can be synthesized through various reactions.

在有机化学中，三硫化物可以通过各种反应合成。

7.Some plants produce trisulfide as a defense mechanism against pests.

一些植物产生三硫化物作为对抗害虫的防御机制。

8.The presence of trisulfide in the sample indicates a potential contamination issue.

样本中存在三硫化物表明可能存在污染问题。

9.The chemical compound known as trisulfide is often used in industrial applications.

被称为三硫化物的化合物常用于工业应用。

10.Researchers are studying the properties of trisulfide to improve its efficiency in batteries.

研究人员正在研究三硫化物的特性，以提高其在电池中的效率。

作文

In the realm of chemistry, compounds play a vital role in understanding the interactions between different elements. One such intriguing compound is trisulfide, which consists of three sulfur atoms bonded to another element or compound. The study of trisulfide is essential for various applications, including materials science and environmental chemistry.To delve deeper into the significance of trisulfide, we must first understand its structure and properties. Trisulfide can be represented chemically as S3X, where X denotes another element. This compound is characterized by its unique bonding and molecular geometry, which influences its reactivity and stability. For example, when trisulfide reacts with metals, it can form metal sulfides, which are crucial in semiconductor technology and catalysis.Moreover, trisulfide compounds can be found in nature. Certain microorganisms produce trisulfide as a metabolic byproduct, showcasing the compound's role in biological systems. Understanding how these organisms utilize trisulfide can provide insights into biogeochemical cycles and the potential for bioremediation strategies.In industrial applications, trisulfide is often employed in the production of rubber and other polymers. The incorporation of trisulfide into these materials can enhance their durability and resistance to degradation. Consequently, this compound has become an integral part of manufacturing processes, contributing to the development of high-performance materials.Furthermore, the environmental implications of trisulfide cannot be overlooked. As industries continue to explore the use of sulfur compounds, understanding the fate of trisulfide in the environment is crucial. Its potential toxicity and the ability to form acid rain are important considerations for regulatory frameworks aimed at minimizing environmental impact.In conclusion, trisulfide is more than just a chemical compound; it represents a bridge between fundamental chemistry and practical applications. From its unique properties to its role in industrial processes and environmental considerations, trisulfide is a prime example of how chemistry shapes our world. By further studying trisulfide and its derivatives, we can unlock new possibilities for innovation and sustainability in various fields, ultimately leading to a better understanding of both the natural and engineered environments around us.

在化学领域，化合物在理解不同元素之间的相互作用中发挥着重要作用。其中一个引人入胜的化合物是三硫化物，它由三个硫原子与另一个元素或化合物结合而成。研究三硫化物对于材料科学和环境化学等多种应用至关重要。要深入了解三硫化物的重要性，我们首先必须理解其结构和性质。三硫化物可以化学表示为S3X，其中X表示另一个元素。该化合物的特点是其独特的键合和分子几何形状，这影响了其反应性和稳定性。例如，当三硫化物与金属反应时，可以形成金属硫化物，这在半导体技术和催化中至关重要。此外，三硫化物化合物可以在自然界中找到。某些微生物会产生三硫化物作为代谢副产物，展示了该化合物在生物系统中的作用。理解这些生物如何利用三硫化物可以提供有关生物地球化学循环和潜在生物修复策略的见解。在工业应用中，三硫化物通常用于橡胶和其他聚合物的生产。将三硫化物纳入这些材料中可以增强其耐久性和抗降解能力。因此，该化合物已成为制造过程中的重要组成部分，为高性能材料的发展做出了贡献。此外，三硫化物的环境影响也不容忽视。随着工业继续探索硫化合物的使用，了解三硫化物在环境中的命运至关重要。其潜在毒性和形成酸雨的能力是制定旨在最小化环境影响的监管框架时的重要考虑因素。总之，三硫化物不仅仅是一个化学化合物；它代表了基础化学与实际应用之间的桥梁。从其独特的性质到其在工业过程和环境考量中的作用，三硫化物是化学如何塑造我们世界的典范。通过进一步研究三硫化物及其衍生物，我们可以为各个领域的创新和可持续发展开辟新的可能性，最终更好地理解我们周围的自然和工程环境。