cupric cyanide

简明释义

氰化铜

英英释义

例句

1.To prevent contamination, all waste containing cupric cyanide (氰化铜) must be disposed of properly.

为了防止污染，所有含有氰化铜的废物必须妥善处理。

2.The production of certain pigments involves the use of cupric cyanide (氰化铜) in the process.

某些颜料的生产过程中涉及使用氰化铜。

3.The toxicity of cupric cyanide (氰化铜) necessitates careful handling in industrial applications.

由于氰化铜的毒性，在工业应用中需要小心处理。

4.Researchers are studying the effects of cupric cyanide (氰化铜) on aquatic life.

研究人员正在研究氰化铜对水生生物的影响。

5.In the laboratory, we synthesized a compound using cupric cyanide (氰化铜) as a key ingredient.

在实验室中，我们使用氰化铜作为关键成分合成了一种化合物。

作文

The study of chemistry often introduces students to a variety of compounds that have both practical applications and theoretical significance. One such compound is cupric cyanide, which is a chemical compound formed from copper and cyanide ions. Understanding cupric cyanide requires a basic knowledge of its components and their interactions. Copper, a metal known for its excellent conductivity, can combine with cyanide, a highly toxic ion, to form this intriguing compound. Cupric cyanide has the chemical formula Cu(CN)2 and is typically found in a solid state at room temperature.In industrial processes, cupric cyanide is often used in electroplating and metal finishing due to its ability to produce a smooth, shiny surface on metals. Its role in the manufacturing sector highlights the importance of understanding not just the properties of individual elements but also how they behave when combined. The toxicity of cyanide means that handling cupric cyanide requires strict safety protocols to prevent exposure. This aspect of the compound serves as a reminder of the dual nature of many chemicals: they can be useful yet dangerous.Moreover, the environmental implications of cupric cyanide cannot be overlooked. When disposed of improperly, it can lead to severe contamination of soil and water sources. This raises questions about responsibility and regulation in industries that utilize such compounds. It is crucial for companies to implement effective waste management practices to mitigate the risks associated with cupric cyanide.In addition to its industrial uses, cupric cyanide is also of interest in the field of analytical chemistry. Scientists may use it as a reagent to detect the presence of other substances in a sample. This demonstrates the versatility of cupric cyanide beyond its initial applications in manufacturing. Furthermore, research into its chemical properties can lead to new discoveries and innovations in various fields, including materials science and toxicology.To fully appreciate cupric cyanide, one must consider its historical context as well. The compound has been studied for many years, and its discovery marked a significant advancement in understanding complex chemical interactions. As chemistry continues to evolve, the role of compounds like cupric cyanide will remain pivotal in both academic research and practical applications.In conclusion, cupric cyanide exemplifies the complexity of chemical compounds and their impact on both industry and the environment. By studying such substances, we gain insights into the delicate balance between utility and safety in the world of chemistry. It is imperative for future chemists and industry professionals to approach compounds like cupric cyanide with a sense of responsibility, ensuring that their benefits are harnessed while minimizing potential hazards. The ongoing research and discussions surrounding cupric cyanide will undoubtedly contribute to a deeper understanding of both its properties and its implications in a broader context.

化学的研究通常会让学生接触到许多具有实际应用和理论意义的化合物。其中一个化合物是cupric cyanide，它是由铜和氰离子形成的化学化合物。理解cupric cyanide需要对其成分及其相互作用有基本的了解。铜是一种以出色的导电性著称的金属，可以与氰化物这种高度毒性的离子结合，形成这个引人注目的化合物。cupric cyanide的化学式为Cu(CN)2，通常在室温下呈固态。在工业过程中，cupric cyanide常用于电镀和金属表面处理，因为它能够在金属表面产生光滑、光亮的效果。它在制造业中的作用突显了理解单个元素的性质以及它们结合时的行为的重要性。氰化物的毒性意味着处理cupric cyanide需要严格的安全协议，以防止暴露。这一化合物的这一方面提醒我们许多化学物质的双重性质：它们既可以有用，又可能危险。此外，cupric cyanide的环境影响也不容忽视。当不当处置时，它可能导致土壤和水源的严重污染。这引发了关于使用此类化合物的行业责任和监管的问题。公司必须实施有效的废物管理实践，以减轻与cupric cyanide相关的风险。除了工业用途，cupric cyanide在分析化学领域也备受关注。科学家可以将其用作试剂，以检测样品中其他物质的存在。这表明cupric cyanide超越其初始应用的多样性。此外，对其化学性质的研究可以导致新发现和创新，涉及材料科学和毒理学等多个领域。要充分欣赏cupric cyanide，还必须考虑其历史背景。该化合物已经被研究多年，其发现标志着对复杂化学相互作用理解的重大进展。随着化学的不断发展，像cupric cyanide这样的化合物在学术研究和实际应用中的作用将继续至关重要。总之，cupric cyanide体现了化学化合物的复杂性及其对工业和环境的影响。通过研究这些物质，我们能够深入了解化学世界中效用与安全之间的微妙平衡。未来的化学家和行业专业人士必须以负责任的态度对待像cupric cyanide这样的化合物，确保其好处在最大限度地减少潜在危害的同时得到利用。围绕cupric cyanide的持续研究和讨论无疑将有助于更深入地理解其性质及其在更广泛背景下的影响。