barium cyanate

简明释义

氰酸钡

英英释义

例句

1.In the laboratory, we synthesized barium cyanate (氰酸钡) to study its properties.

在实验室中，我们合成了barium cyanate（氰酸钡）以研究其性质。

2.Researchers found that barium cyanate (氰酸钡) can be used as a catalyst in certain reactions.

研究人员发现barium cyanate（氰酸钡）可以用作某些反应的催化剂。

3.The use of barium cyanate (氰酸钡) in organic synthesis has gained popularity among chemists.

在有机合成中使用barium cyanate（氰酸钡）在化学家中越来越受欢迎。

4.Safety precautions are essential when handling barium cyanate (氰酸钡) due to its toxic nature.

由于其毒性，在处理barium cyanate（氰酸钡）时必须采取安全预防措施。

5.The chemical reaction between barium hydroxide and cyanuric acid produces barium cyanate (氰酸钡) as a byproduct.

氢氧化钡与氰尿酸的化学反应产生了barium cyanate（氰酸钡）作为副产品。

作文

Barium cyanate, represented by the chemical formula Ba(CN)2, is an intriguing compound that has garnered attention in various fields of chemistry. This compound is a salt formed from barium and cyanate ions. Understanding the properties and applications of barium cyanate 氰酸钡 can provide insights into its significance in both industrial and laboratory settings.The synthesis of barium cyanate 氰酸钡 typically involves the reaction of barium hydroxide with ammonium cyanate. The resulting compound is a white crystalline solid that is soluble in water. One of the most notable characteristics of barium cyanate 氰酸钡 is its ability to form complexes with various metal ions, which makes it useful in coordination chemistry. This property allows chemists to explore the behavior of different metal complexes, leading to advancements in materials science and catalysis.In addition to its role in coordination chemistry, barium cyanate 氰酸钡 has been studied for its potential applications in the field of electronics. Researchers have investigated its use as a dielectric material due to its favorable electrical properties. The ability to manipulate the dielectric constant of materials is crucial in the development of capacitors and other electronic components. Thus, the study of barium cyanate 氰酸钡 contributes to the ongoing innovation in electronic devices.Moreover, barium cyanate 氰酸钡 has also found applications in the production of certain types of polymers. When combined with specific monomers, it can act as a catalyst in polymerization reactions. This catalytic activity is essential for creating materials with desired properties, such as increased strength or flexibility. Consequently, the investigation of barium cyanate 氰酸钡 in polymer chemistry opens up new avenues for material design and engineering.However, it is important to note that barium cyanate 氰酸钡 must be handled with care due to its toxicity. The cyanate ion can be harmful if ingested or inhaled, necessitating proper safety precautions when working with this compound. Researchers and industrial workers alike must adhere to safety protocols to mitigate any risks associated with exposure to barium cyanate 氰酸钡.In conclusion, barium cyanate 氰酸钡 is a compound of significant interest in the realm of chemistry due to its unique properties and diverse applications. Its role in coordination chemistry, electronics, and polymer science highlights its versatility and importance in advancing scientific research and technology. As we continue to explore the potential of barium cyanate 氰酸钡, it is essential to balance innovation with safety considerations, ensuring that we harness its benefits while minimizing risks.