hexachloride

简明释义

英[ˌhɛksəˈklɔːraɪd]美[ˌhɛksəˈklɔːraɪd]

n. 六氯化合物

英英释义

单词用法

同义词

反义词

例句

1.Benzene hexachloride is commonly called BHC.

六氯化苯通常称为BHC。

2.Benzene hexachloride is commonly called BHC.

六氯化苯通常称为BHC。

3.The presence of hexachloride in soil can indicate contamination.

土壤中存在六氯化物可能表明污染。

4.In the laboratory, we synthesized hexachloride for our experiments.

在实验室，我们合成了六氯化物用于我们的实验。

5.Safety measures must be taken when handling hexachloride due to its toxic nature.

由于其毒性，在处理六氯化物时必须采取安全措施。

6.Researchers are studying the effects of hexachloride on environmental health.

研究人员正在研究六氯化物对环境健康的影响。

7.The chemical compound known as hexachloride is often used in industrial applications.

被称为六氯化物的化合物通常用于工业应用。

作文

In the realm of chemistry, the term hexachloride refers to a compound that contains six chlorine atoms bonded to another element or group. This classification is crucial for understanding various chemical reactions and properties. A well-known example of a hexachloride is hexachloroethane (C2Cl6), which has been studied extensively due to its unique characteristics and applications. Hexachloride compounds can be synthesized through different methods, often involving chlorination processes where chlorine gas reacts with organic compounds. Understanding the synthesis and behavior of hexachloride compounds is essential for chemists working in fields such as environmental science, toxicology, and material science.One significant aspect of hexachloride compounds is their environmental impact. Many hexachloride substances are persistent organic pollutants (POPs) that can accumulate in the environment and pose risks to human health and ecosystems. For instance, certain hexachloride compounds have been linked to adverse effects such as endocrine disruption and carcinogenicity. Therefore, regulations surrounding the use and disposal of hexachloride chemicals are stringent in many countries. The study of these compounds is vital not only for industrial applications but also for ensuring public safety and environmental protection.Moreover, the versatility of hexachloride compounds extends to various industries. In the manufacturing sector, hexachloride chemicals can be used as solvents, flame retardants, or intermediates in the production of other chemicals. Their unique properties, such as high stability and resistance to degradation, make them valuable in specific applications. However, this utility must be balanced with the potential hazards they present. As research continues, scientists are exploring safer alternatives to hexachloride compounds that retain the desired properties without the associated risks.In conclusion, the term hexachloride encompasses a range of compounds with significant implications in both chemistry and environmental science. Understanding the structure, synthesis, and effects of hexachloride substances is crucial for developing safer chemical practices and mitigating their impact on health and the environment. As we advance in our knowledge of these compounds, it is imperative that we consider both their benefits and risks, striving for a balance that prioritizes sustainability and safety in chemical use. The ongoing research into hexachloride compounds will undoubtedly shape the future of chemistry and environmental policy, emphasizing the importance of responsible chemical management in our increasingly complex world.

在化学领域，术语六氯化物指的是一种含有六个氯原子与另一个元素或基团结合的化合物。这一分类对于理解各种化学反应和性质至关重要。一个众所周知的六氯化物例子是六氯乙烷（C2Cl6），由于其独特的特性和应用，已被广泛研究。六氯化物化合物可以通过不同的方法合成，通常涉及氯化过程，其中氯气与有机化合物反应。了解六氯化物化合物的合成和行为对于在环境科学、毒理学和材料科学等领域工作的化学家至关重要。六氯化物化合物的一个重要方面是它们对环境的影响。许多六氯化物物质被认为是持久性有机污染物（POPs），能够在环境中积累，并对人类健康和生态系统构成风险。例如，某些六氯化物化合物与内分泌干扰和致癌性的不良影响有关。因此，许多国家对六氯化物化学品的使用和处置有严格的规定。研究这些化合物不仅对工业应用至关重要，也对确保公众安全和环境保护至关重要。此外，六氯化物化合物的多样性延伸到各个行业。在制造业中，六氯化物化学品可用作溶剂、阻燃剂或其他化学品生产中的中间体。它们的独特性质，如高稳定性和耐降解性，使它们在特定应用中具有价值。然而，这种实用性必须与它们可能带来的危险进行平衡。随着研究的不断推进，科学家们正在探索更安全的替代品，以保持六氯化物化合物所需的特性，而不带来相关风险。总之，术语六氯化物涵盖了一系列在化学和环境科学中具有重要意义的化合物。理解六氯化物物质的结构、合成和影响对于开发更安全的化学实践和减轻其对健康和环境的影响至关重要。随着我们对这些化合物的认识不断加深，我们必须考虑它们的好处和风险，努力实现优先考虑可持续性和安全性的平衡。对六氯化物化合物的持续研究无疑将塑造化学和环境政策的未来，强调在我们日益复杂的世界中负责任的化学管理的重要性。