dithionate

简明释义

[ˈdɪθiəˌneɪt][ˈdɪθiəˌneɪt]

n. [无化] 连二硫酸盐

英英释义

Dithionate is a chemical compound containing the anion S2O6^2−, which is derived from dithionic acid and is often used in various chemical reactions as a reducing agent.

二硫酸盐是一种含有阴离子S2O6^2−的化合物,源自二硫酸,常用于各种化学反应中作为还原剂。

单词用法

同义词

thiosulfate

硫代硫酸盐

Thiosulfate is often used in analytical chemistry as a reducing agent.

硫代硫酸盐常用于分析化学中作为还原剂。

sulfite

亚硫酸盐

Sulfite is commonly used as a preservative in food and beverages.

亚硫酸盐常用作食品和饮料的防腐剂。

反义词

thiosulfate

硫代硫酸盐

Sodium thiosulfate is often used in photography as a fixing agent.

硫代硫酸钠常用于摄影作为定影剂。

sulfate

硫酸盐

Sulfate compounds are commonly found in fertilizers.

硫酸盐化合物常见于肥料中。

例句

1.Dithionic acid and metal dithionate salts are potentially useful sources of soluble metal ions and electrolytes for electroplating solutions.

在电镀溶液中使用连二硫酸和连二硫酸金属盐作为可溶性金属离子和电解质的来源具有潜在的应用。

2.Dithionic acid and metal dithionate salts are potentially useful sources of soluble metal ions and electrolytes for electroplating solutions.

在电镀溶液中使用连二硫酸和连二硫酸金属盐作为可溶性金属离子和电解质的来源具有潜在的应用。

3.We added dithionate to the wastewater to help remove heavy metals.

我们向废水中添加了亚硫酸盐以帮助去除重金属。

4.The presence of dithionate in the sample indicated a reducing environment.

样本中亚硫酸盐的存在表明了一个还原环境。

5.The chemist used sodium dithionate to reduce the metal ions in the solution.

化学家使用了氢氧化钠亚硫酸盐来还原溶液中的金属离子。

6.Environmental scientists study the role of dithionate in sulfur cycling.

环境科学家研究亚硫酸盐在硫循环中的作用。

7.In the laboratory, the reaction of potassium dithionate with iodine was observed.

在实验室中,观察到碘与氯化钾亚硫酸盐的反应。

作文

In the realm of chemistry, various compounds play crucial roles in different reactions and processes. One such compound that has garnered attention is dithionate, a chemical species that consists of two sulfur atoms bonded to four oxygen atoms. The formula for dithionate is typically represented as S2O6^2-. This anion is often encountered in studies related to sulfur oxidation states and environmental chemistry. Understanding dithionate is essential for chemists, especially when exploring its applications in analytical chemistry and its role in biological systems.The significance of dithionate extends beyond its molecular structure; it is often used as a reagent in various chemical analyses. For instance, in the determination of certain metal ions, dithionate can act as a reducing agent, facilitating the conversion of higher oxidation state metals to lower ones. This property is particularly useful in environmental monitoring, where the presence of heavy metals in water bodies can be detrimental to ecosystems. By employing dithionate in testing procedures, scientists can accurately assess the levels of contamination and devise strategies for remediation.Moreover, dithionate is also relevant in biological systems. Research has shown that certain microorganisms can utilize dithionate as an electron acceptor during anaerobic respiration. This process highlights the importance of dithionate in biogeochemical cycles, particularly in sulfur cycling, where it can influence the availability of nutrients in various environments. Understanding how dithionate interacts with other compounds in these cycles can provide insights into the overall health of ecosystems and the impact of human activities on them.In addition to its environmental and biological significance, dithionate has potential applications in industrial processes. For example, it can be used in the production of certain chemicals and materials, where its unique properties can enhance efficiency and reduce waste. The versatility of dithionate in various fields underscores its importance in both theoretical research and practical applications.However, despite its usefulness, dithionate must be handled with care. As with many chemical compounds, there are potential risks associated with its use. Proper safety protocols should always be followed to minimize exposure and ensure safe handling. Researchers and industrial workers alike must be aware of the properties of dithionate and take necessary precautions when working with this compound.In conclusion, dithionate is a fascinating compound that plays a vital role in multiple disciplines, including environmental science, biology, and industrial chemistry. Its ability to participate in redox reactions and its significance in sulfur cycling make it an important subject of study. As we continue to explore the complexities of chemical compounds like dithionate, we gain a deeper understanding of their potential applications and implications for our world. The ongoing research into dithionate will undoubtedly lead to new discoveries and advancements that could benefit various fields, from environmental conservation to industrial innovation.

在化学领域,各种化合物在不同的反应和过程中发挥着至关重要的作用。一个引起关注的化合物是dithionate,一种由两个硫原子与四个氧原子结合而成的化学物质。dithionate的分子式通常表示为S2O6^2-。这种阴离子常常出现在与硫氧化态和环境化学相关的研究中。理解dithionate对化学家来说至关重要,特别是在探索其在分析化学中的应用以及其在生物系统中的作用时。dithionate的重要性超越了其分子结构;它常用作各种化学分析中的试剂。例如,在某些金属离子的测定中,dithionate可以作为还原剂,促进高氧化态金属向低氧化态的转化。这一特性在环境监测中尤为有用,因为水体中重金属的存在可能对生态系统造成危害。通过在测试程序中使用dithionate,科学家可以准确评估污染水平并制定修复策略。此外,dithionate在生物系统中也很相关。研究表明,某些微生物可以在厌氧呼吸过程中利用dithionate作为电子受体。这个过程突显了dithionate在生物地球化学循环中的重要性,特别是在硫循环中,它可以影响各种环境中养分的可用性。了解dithionate如何与这些循环中的其他化合物相互作用,可以提供对生态系统整体健康状况及人类活动对其影响的见解。除了其环境和生物学的重要性外,dithionate在工业过程中的潜在应用也值得关注。例如,它可以用于某些化学品和材料的生产,其中其独特的性质可以提高效率并减少浪费。dithionate在各个领域的多样性凸显了其在理论研究和实际应用中的重要性。然而,尽管dithionate有其用途,但必须小心处理。与许多化学化合物一样,使用时可能存在潜在风险。应始终遵循适当的安全协议,以最小化暴露并确保安全处理。研究人员和工业工人都必须了解dithionate的性质,并在处理这种化合物时采取必要的预防措施。总之,dithionate是一个迷人的化合物,在多个学科中发挥着重要作用,包括环境科学、生物学和工业化学。它参与氧化还原反应的能力及其在硫循环中的重要性使其成为一个重要的研究主题。随着我们继续探索像dithionate这样的化学化合物的复杂性,我们对它们潜在应用和对我们世界影响的理解将更深入。对dithionate的持续研究无疑将导致新的发现和进展,这些发现和进展可能会使各个领域受益,从环境保护到工业创新。