disulfate

简明释义

英[daɪˈsʌlfeɪt]美[daɪˈsʌlfet]

n. 硫酸氢盐（等于 disulphate）

英英释义

单词用法

同义词

反义词

例句

1.AIM To study and compare effects of quercetin and its derivatives, sodium quercetin monosulfate (SQMS) and sodiums quercetin disulfate (SQDS) on the growth of HL 60 cells.

目的研究并比较槲皮素及其硫酸酯钠盐衍生物(槲皮素单硫酸酯钠、槲皮素二硫酸酯钠)对HL 6 0细胞生长的影响。

2.AIM To study and compare effects of quercetin and its derivatives, sodium quercetin monosulfate (SQMS) and sodiums quercetin disulfate (SQDS) on the growth of HL 60 cells.

目的研究并比较槲皮素及其硫酸酯钠盐衍生物(槲皮素单硫酸酯钠、槲皮素二硫酸酯钠)对HL 6 0细胞生长的影响。

3.The polarographic reduction wave of protein is resulted from the reversible reduction of disulfate linkage.

蛋白质的极谱还原波是由其分子中双硫键引起的，为可逆波。

4.The chemical reaction produced a compound known as disulfate.

该化学反应产生了一种称为二硫酸盐的化合物。

5.In the laboratory, we learned how to synthesize disulfate from sulfuric acid.

在实验室里，我们学习了如何从硫酸合成二硫酸盐。

6.The presence of disulfate can indicate the oxidation state of sulfur in minerals.

二硫酸盐的存在可以指示矿物中硫的氧化态。

7.Researchers are studying the effects of disulfate on environmental chemistry.

研究人员正在研究二硫酸盐对环境化学的影响。

8.When mixed with water, disulfate forms a solution that is used in various industrial applications.

与水混合时，二硫酸盐形成一种用于各种工业应用的溶液。

作文

In the realm of chemistry, the understanding of compounds and their interactions is crucial. One such compound that often comes up in discussions about chemical reactions is disulfate. The term disulfate refers to a chemical species that contains two sulfate groups, typically represented as SO4. This compound plays a significant role in various chemical processes, particularly in the field of biochemistry and environmental science. To comprehend the importance of disulfate, we must first delve into the structure of sulfate itself. Sulfate is a polyatomic ion with a tetrahedral structure, consisting of one sulfur atom surrounded by four oxygen atoms. When two sulfate groups combine, they form disulfate, which can be found in various chemical reactions, especially those involving oxidation and reduction. One of the most intriguing aspects of disulfate is its role in biological systems. For instance, in the human body, disulfate is involved in the metabolism of certain amino acids and plays a part in the detoxification processes that occur in the liver. Understanding how disulfate interacts with other molecules can provide insights into metabolic pathways and the overall functioning of biological organisms. Moreover, disulfate also has applications in environmental chemistry. It can act as an oxidizing agent in various reactions, contributing to the breakdown of pollutants in water and soil. By studying the behavior of disulfate in these contexts, scientists can develop strategies for pollution remediation and improve our understanding of chemical cycles in the environment. In addition to its biological and environmental significance, disulfate is also relevant in industrial processes. For example, it can be used in the production of certain fertilizers, where it helps to supply essential nutrients to plants. The presence of disulfate in fertilizers can enhance plant growth and yield, making it a valuable component in agriculture. Despite its importance, the study of disulfate is not without challenges. Researchers must consider the complex interactions that occur when disulfate is present in different environments. Factors such as pH, temperature, and the presence of other ions can significantly influence the behavior of disulfate and its reactivity. Thus, ongoing research is necessary to fully understand the implications of disulfate in various fields. In conclusion, the compound disulfate is a fascinating subject of study within the field of chemistry. Its roles in biological systems, environmental processes, and industrial applications highlight its significance. As we continue to explore the complexities of chemical interactions, gaining a deeper understanding of disulfate will undoubtedly contribute to advancements in science and technology. Whether in the laboratory or in the natural world, the study of disulfate offers valuable insights that can help us tackle some of the pressing challenges we face today.

在化学领域，理解化合物及其相互作用至关重要。一个经常在化学反应讨论中出现的化合物是disulfate。术语disulfate指的是一种含有两个硫酸根的化学物质，通常表示为SO4。该化合物在各种化学过程中发挥着重要作用，特别是在生物化学和环境科学领域。 要理解disulfate的重要性，我们首先必须深入了解硫酸根本身的结构。硫酸根是一种具有四面体结构的多原子离子，由一个硫原子和四个氧原子组成。当两个硫酸根结合时，它们形成disulfate，这种化合物可以在各种化学反应中找到，特别是涉及氧化还原的反应。 disulfate最引人注目的方面之一是它在生物系统中的作用。例如，在人体中，disulfate参与某些氨基酸的代谢，并在肝脏的解毒过程中发挥作用。了解disulfate如何与其他分子相互作用，可以提供对代谢途径和生物体整体功能的洞察。 此外，disulfate在环境化学中也有应用。它可以作为各种反应中的氧化剂，促进水和土壤中污染物的降解。通过研究disulfate在这些背景下的行为，科学家可以制定污染修复策略，并提高我们对环境中化学循环的理解。 除了生物和环境的重要性外，disulfate在工业过程中也相关。例如，它可以用于某些肥料的生产，帮助为植物提供必需的营养。在肥料中存在disulfate可以增强植物的生长和产量，使其成为农业中宝贵的组成部分。 尽管disulfate的重要性不容忽视，但研究disulfate并非没有挑战。研究人员必须考虑在不同环境中存在时发生的复杂相互作用。pH、温度和其他离子的存在等因素都可以显著影响disulfate的行为和反应性。因此，持续的研究对于全面理解disulfate在各个领域的影响是必要的。 总之，化合物disulfate是化学领域一个引人入胜的研究主题。它在生物系统、环境过程和工业应用中的作用突显了其重要性。随着我们继续探索化学相互作用的复杂性，深入理解disulfate无疑将有助于科学和技术的进步。无论是在实验室还是在自然界，对disulfate的研究都提供了有价值的见解，可以帮助我们应对当今面临的一些紧迫挑战。