bromic
简明释义
adj. 溴的;含有溴的
英英释义
Relating to or derived from bromine, especially in compounds where bromine has a valence of three. | 与溴有关或源自溴,特别是在溴的价态为三的化合物中。 |
单词用法
溴水 | |
溴蒸气 | |
溴氧化 | |
溴取代 |
同义词
反义词
| 氯酸的 | Chloric acid is a strong oxidizing agent used in various chemical reactions. | 氯酸是一种强氧化剂,用于各种化学反应。 | |
| 碘酸的 | Iodic acid can be used in analytical chemistry for iodine determination. | 碘酸可用于分析化学中的碘含量测定。 |
例句
双硫酸盐,白色晶状。
双硫酸盐,白色晶状。
3.The chemist prepared a solution of bromic 溴的 acid for the experiment.
化学家为实验准备了一种bromic 溴的酸溶液。
4.Researchers are studying the effects of bromic 溴的 acid on plant growth.
研究人员正在研究bromic 溴的酸对植物生长的影响。
5.In the analysis, they found traces of bromic 溴的 compounds in the water.
在分析中,他们发现水中有微量的bromic 溴的化合物。
6.The bromic 溴的 reaction was crucial for the synthesis of the new drug.
这次bromic 溴的反应对于新药的合成至关重要。
7.The laboratory used bromic 溴的 gas in their chemical reactions.
实验室在他们的化学反应中使用了bromic 溴的气体。
作文
The study of chemistry often reveals fascinating compounds that play crucial roles in various industrial processes and everyday life. One such compound is bromine, which is a halogen element found in Group 17 of the periodic table. When discussing certain chemical reactions, the term bromic (溴的) becomes significant, particularly when referring to the presence of bromine in different oxidation states. Understanding the properties and applications of bromic compounds can provide insights into their importance in both organic and inorganic chemistry.Bromic acid (HBrO3), for instance, is one of the most notable bromic (溴的) compounds. It is a powerful oxidizing agent and has various applications in chemical synthesis and analysis. The bromic (溴的) acid can be derived from bromine and is known for its strong acidic properties. In laboratories, it is often used for the oxidation of organic substrates, showcasing its utility in synthetic organic chemistry.Moreover, the bromic (溴的) compounds have found their way into the pharmaceutical industry. Many medications incorporate brominated compounds due to their unique chemical properties. For example, certain sedatives and anti-anxiety medications utilize bromic (溴的) derivatives to enhance their therapeutic effects. This highlights the importance of understanding the chemical behavior of bromic (溴的) substances when developing new drugs.In environmental chemistry, bromic (溴的) compounds also play a significant role. Brominated flame retardants are widely used in various materials to prevent fires. However, concerns regarding their safety and environmental impact have led to increased scrutiny and regulation. Researchers are now investigating alternative flame retardants that do not contain bromic (溴的) elements, emphasizing the need for sustainable practices in chemical manufacturing.The reactivity of bromic (溴的) compounds is another area of interest. They can participate in various chemical reactions, including substitution and elimination reactions, making them versatile in synthetic pathways. For instance, the introduction of bromic (溴的) groups into organic molecules can significantly alter their reactivity and properties, paving the way for the synthesis of complex structures.In summary, the term bromic (溴的) encompasses a range of chemical compounds that are integral to various fields, from pharmaceuticals to environmental science. A thorough understanding of these compounds allows chemists and researchers to harness their properties effectively. As we continue to explore the world of chemistry, the significance of bromic (溴的) compounds will undoubtedly remain prominent, guiding innovations and advancements in numerous applications.
化学研究常常揭示出在各种工业过程和日常生活中发挥重要作用的迷人化合物。其中一个化合物是溴,它是周期表第17组的卤素元素。在讨论某些化学反应时,术语bromic(溴的)变得重要,尤其是当提到不同氧化态下的溴时。理解bromic(溴的)化合物的性质和应用可以提供对它们在有机和无机化学中重要性的洞察。例如,溴酸(HBrO3)是最著名的bromic(溴的)化合物之一。它是一种强氧化剂,在化学合成和分析中具有多种应用。bromic(溴的)酸可以由溴衍生而来,并以其强酸性而闻名。在实验室中,它通常用于有机底物的氧化,展示了其在合成有机化学中的实用性。此外,bromic(溴的)化合物也进入了制药行业。许多药物由于其独特的化学性质而包含溴化合物。例如,某些镇静剂和抗焦虑药物利用bromic(溴的)衍生物来增强其治疗效果。这突显了在开发新药时理解bromic(溴的)物质化学行为的重要性。在环境化学中,bromic(溴的)化合物也发挥着重要作用。溴化阻燃剂广泛用于各种材料中以防止火灾。然而,关于其安全性和环境影响的担忧导致了对其的日益审查和监管。研究人员现在正在调查不含bromic(溴的)元素的替代阻燃剂,强调了在化学制造中可持续实践的必要性。bromic(溴的)化合物的反应性是另一个值得关注的领域。它们可以参与各种化学反应,包括取代反应和消除反应,使它们在合成路径中非常多才多艺。例如,将bromic(溴的)基团引入有机分子中可以显著改变它们的反应性和性质,为合成复杂结构铺平道路。总之,术语bromic(溴的)涵盖了一系列在各个领域中不可或缺的化学化合物,从制药到环境科学。对这些化合物的透彻理解使化学家和研究人员能够有效地利用它们的性质。随着我们继续探索化学世界,bromic(溴的)化合物的重要性无疑将继续突出,引导众多应用中的创新和进步。
