antimony potassium tartrate

简明释义

酒石酸锑钾

英英释义

例句

1.Researchers are exploring new applications for antimony potassium tartrate in pharmaceuticals.

研究人员正在探索锑钾酒石酸盐在制药中的新应用。

2.Safety data sheets indicate that antimony potassium tartrate should be handled with care.

安全数据表指出，锑钾酒石酸盐应小心处理。

3.The laboratory used antimony potassium tartrate to prepare the sample for analysis.

实验室使用锑钾酒石酸盐来准备样品进行分析。

4.The treatment involved administering antimony potassium tartrate to combat parasitic infections.

治疗涉及给予锑钾酒石酸盐以对抗寄生虫感染。

5.In toxicology studies, antimony potassium tartrate is often tested for its effects on human health.

在毒理学研究中，锑钾酒石酸盐常常被测试对人类健康的影响。

作文

Antimony potassium tartrate is a chemical compound that has been used in various applications, particularly in the fields of medicine and chemistry. This compound is a salt formed from antimony, a metalloid element, and potassium tartrate, which is derived from tartaric acid. Understanding the properties and uses of antimony potassium tartrate can provide valuable insights into its significance in both historical and modern contexts.Historically, antimony potassium tartrate was used as a medicinal agent, especially in the treatment of certain diseases. It was known for its emetic properties, meaning it could induce vomiting, which was sometimes necessary for detoxifying patients. The compound was also utilized in the treatment of conditions such as schistosomiasis, a disease caused by parasitic worms. Its effectiveness in these areas made it a valuable tool in the medical field during earlier centuries.In addition to its medicinal uses, antimony potassium tartrate has also played a role in chemical analysis and laboratory practices. It is often used as a reagent in various chemical reactions due to its ability to form complexes with other substances. For instance, it can be employed in the determination of certain metals in analytical chemistry. The compound's unique properties allow chemists to explore its behavior in different environments, leading to a deeper understanding of chemical interactions.The structure of antimony potassium tartrate is interesting as well. It contains antimony in a +3 oxidation state, which is crucial for its reactivity. The presence of potassium ions and tartrate ions contributes to its solubility and stability in aqueous solutions. This structural composition is what enables the compound to participate effectively in various chemical reactions and medical applications.Despite its benefits, the use of antimony potassium tartrate is not without risks. Antimony, while useful, can be toxic in certain forms and concentrations. Therefore, handling this compound requires caution and adherence to safety protocols. In modern medicine, the trend has shifted towards safer alternatives, and the use of antimony potassium tartrate has declined significantly in favor of less toxic options. Nonetheless, the compound remains a topic of interest for researchers who study its historical applications and potential future uses.In conclusion, antimony potassium tartrate is a compound with a rich history and diverse applications. Its role in medicine, particularly as an emetic and a treatment for parasitic infections, highlights its importance in the past. Additionally, its utility in chemical analysis showcases its relevance in scientific research. As we continue to advance our understanding of chemistry and medicine, the study of compounds like antimony potassium tartrate will remain significant, reminding us of the intricate relationship between elements and their applications in human health and science.

氢氧化钾铋是一种化学化合物，已在多个领域中使用，特别是在医学和化学领域。该化合物是由铋元素和酒石酸钾形成的盐，后者源自酒石酸。理解氢氧化钾铋的性质和用途，可以为我们提供关于其在历史和现代背景下的重要性的宝贵见解。历史上，氢氧化钾铋曾被用作药物，特别是在治疗某些疾病方面。它因其催吐特性而闻名，这意味着它可以诱发呕吐，这在某些情况下对解毒患者是必要的。该化合物也用于治疗如血吸虫病等由寄生虫引起的疾病。它在这些领域的有效性使其在早期世纪成为医学领域的重要工具。除了医疗用途外，氢氧化钾铋在化学分析和实验室实践中也发挥了作用。由于其与其他物质形成络合物的能力，通常用作各种化学反应中的试剂。例如，它可以用于分析化学中某些金属的测定。该化合物的独特性质使化学家能够探索其在不同环境中的行为，从而深入了解化学相互作用。氢氧化钾铋的结构也很有趣。它含有+3氧化态的铋，这对其反应性至关重要。钾离子和酒石酸根离子的存在有助于其在水溶液中的溶解度和稳定性。这种结构组成使得该化合物能够有效参与各种化学反应和医疗应用。尽管有其好处，使用氢氧化钾铋并非没有风险。铋虽然有用，但在某些形式和浓度下可能是有毒的。因此，处理该化合物需要谨慎，并遵循安全协议。在现代医学中，趋势已经转向更安全的替代品，使用氢氧化钾铋的情况显著减少，取而代之的是毒性较小的选择。尽管如此，该化合物仍然是研究人员关注的主题，他们研究其历史应用和潜在的未来用途。总之，氢氧化钾铋是一种具有丰富历史和多样应用的化合物。它在医学中的作用，尤其是作为催吐剂和治疗寄生虫感染的药物，突显了它在过去的重要性。此外，它在化学分析中的实用性展示了它在科学研究中的相关性。随着我们继续推进对化学和医学的理解，像氢氧化钾铋这样的化合物的研究将保持重要性，提醒我们元素与人类健康和科学应用之间复杂的关系。