prussiate

简明释义

英[ˈprʌʃɪɪt]美[ˈprʌʃˌeɪt;ˈprʌsiˌeɪt;ˈprʌsiɪ

n. 氰化物

英英释义

单词用法

同义词

反义词

例句

1.Cassava is the main food that counts intertropical area resident, cassava root contains cyaniding dextrose, but prussiate basically is passed contain sulfur the method of amino acid by detoxify.

木薯是数亿热带地区居民的主要食物，木薯根含有氰化葡萄糖，但氰化物主要通过含硫氨基酸的路径被解毒。

2.Besides, in this article we also discuss the way of improving molasses pre treatment technology by comparing and analyzing the results of yellow prussiate of potash pretreatment.

又从黄血盐预处理结果的对比分析中，对糖蜜中的多种常量、微量元素的含量进行测定。

3.Cassava is the main food that counts intertropical area resident, cassava root contains cyaniding dextrose, but prussiate basically is passed contain sulfur the method of amino acid by detoxify.

木薯是数亿热带地区居民的主要食物，木薯根含有氰化葡萄糖，但氰化物主要通过含硫氨基酸的路径被解毒。

4.The prussiate solution was added dropwise to avoid any violent reactions.

为了避免剧烈反应，prussiate溶液是逐滴加入的。

5.The chemist carefully measured the amount of prussiate to ensure the reaction would proceed smoothly.

化学家仔细测量了prussiate的量，以确保反应顺利进行。

6.The production of dyes often involves prussiate compounds due to their vibrant colors.

染料的生产通常涉及prussiate化合物，因为它们具有鲜艳的颜色。

7.In the laboratory, we used prussiate as a reagent to test for the presence of certain metals.

在实验室中，我们使用prussiate作为试剂来测试某些金属的存在。

8.Safety precautions are essential when handling prussiate because it can be toxic.

处理prussiate时，采取安全预防措施至关重要，因为它可能是有毒的。

作文

The term prussiate refers to a chemical compound that contains the cyanide ion, specifically in coordination with a metal. One of the most notable examples of a prussiate is potassium ferricyanide, commonly known as red prussiate of potash. This compound has been widely used in various applications, including photography and electroplating. Understanding the properties and uses of prussiate compounds can provide valuable insights into their significance in both historical and modern contexts.Throughout history, prussiate compounds have played an essential role in various industries. For instance, the vibrant blue pigment known as Prussian blue is derived from the reaction of ferrous salts with prussiate ions. This pigment has been used in art and decoration for centuries, showcasing the aesthetic potential of chemical compounds. The discovery of Prussian blue in the early 18th century marked a significant advancement in the field of chemistry and art, illustrating how prussiate compounds can bridge the gap between science and creativity.In addition to their artistic applications, prussiate compounds have also found their way into the realm of medicine and health. For example, certain prussiate derivatives are utilized in treating cyanide poisoning. By forming stable complexes with cyanide ions, these compounds can effectively neutralize the toxic effects of cyanide in the body. This application highlights the dual nature of prussiate compounds, which can be both harmful and beneficial depending on their context and use.Moreover, the industrial applications of prussiate compounds extend to the manufacturing of fertilizers and other agricultural products. The ability of certain prussiate compounds to release nitrogen slowly makes them valuable in promoting plant growth. As the world faces challenges related to food security and sustainable agriculture, understanding the role of prussiate compounds in enhancing crop yields becomes increasingly important.However, it is crucial to approach the use of prussiate compounds with caution due to their potential toxicity. The cyanide ion is known for its high toxicity, and exposure to prussiate compounds can pose significant health risks. Therefore, safety measures must be implemented when handling these chemicals, particularly in industrial settings. Educating workers and the public about the proper handling and disposal of prussiate compounds is essential to prevent accidents and ensure safety.In conclusion, the term prussiate encompasses a range of chemical compounds with diverse applications across various fields. From their historical significance in art to their modern-day uses in medicine and agriculture, prussiate compounds demonstrate the intricate relationship between chemistry and everyday life. As we continue to explore the potential of these compounds, it is vital to balance their benefits with the necessary precautions to ensure safe and responsible use. Understanding prussiate compounds not only enriches our knowledge of chemistry but also enhances our appreciation for the complexities of the materials that shape our world.

术语prussiate指的是一种含有氰离子的化合物，特别是与金属配位的化合物。其中一个最著名的例子是氰化钾，即红色氰化钾。这种化合物在摄影和电镀等各种应用中被广泛使用。理解prussiate化合物的性质和用途可以为我们提供关于它们在历史和现代背景下重要性的宝贵见解。在历史上，prussiate化合物在各个行业中发挥了重要作用。例如，著名的蓝色颜料普鲁士蓝就是由亚铁盐与prussiate离子反应而成的。这种颜料在艺术和装饰中使用了几个世纪，展示了化学化合物的美学潜力。18世纪初普鲁士蓝的发现标志着化学和艺术领域的重要进步，说明了prussiate化合物如何在科学与创造力之间架起桥梁。除了艺术应用外，prussiate化合物还进入了医学和健康领域。例如，某些prussiate衍生物用于治疗氰化物中毒。通过与氰离子形成稳定的络合物，这些化合物可以有效地中和氰化物在体内的毒性作用。这一应用突显了prussiate化合物的双重性质，具体取决于其背景和用途，它们既可以是有害的，也可以是有益的。此外，prussiate化合物的工业应用扩展到肥料和其他农业产品的制造。某些prussiate化合物缓慢释放氮的能力使它们在促进植物生长方面具有价值。随着世界面临与粮食安全和可持续农业相关的挑战，理解prussiate化合物在提高作物产量中的作用变得越来越重要。然而，由于其潜在的毒性，在使用prussiate化合物时必须谨慎。氰离子以其高毒性而闻名，接触prussiate化合物可能会带来重大健康风险。因此，在处理这些化学品时，特别是在工业环境中，必须实施安全措施。教育工人和公众有关正确处理和处置prussiate化合物的知识对于防止事故和确保安全至关重要。总之，术语prussiate涵盖了一系列具有多样应用的化学化合物，涉及多个领域。从它们在艺术中的历史重要性到现代医学和农业中的应用，prussiate化合物展示了化学与日常生活之间错综复杂的关系。随着我们继续探索这些化合物的潜力，平衡其好处与必要的预防措施以确保安全和负责任的使用至关重要。理解prussiate化合物不仅丰富了我们对化学的知识，还增强了我们对塑造我们世界的材料复杂性的欣赏。