bichloride

简明释义

英[baɪˈklɔːraɪd]美[baɪˈklɔːraɪd]

n. 二氯化物

英英释义

单词用法

同义词

反义词

例句

1.A blend with better properties could be obtained by adding phenolic resin tin bichloride curative.

通过添加酚醛树脂二氯化锡固化剂可以获得性能更好的共混物。

2.A blend with better properties could be obtained by adding phenolic resin 2402/tin bichloride (8/0. 5) curative and a certain level of dioctyl phthalate plasticizer and HAF reinforcing agent.

硫化体系采用酚酸树脂2402／氯化亚锡（8／0．5）、加入一定量的增塑剂邻苯二甲酸二辛酯和补强剂高耐磨炭黑，可获得性能较好的共混体。

3.A blend with better properties could be obtained by adding phenolic resin 2402/tin bichloride (8/0. 5) curative and a certain level of dioctyl phthalate plasticizer and HAF reinforcing agent.

硫化体系采用酚酸树脂2402／氯化亚锡（8／0．5）、加入一定量的增塑剂邻苯二甲酸二辛酯和补强剂高耐磨炭黑，可获得性能较好的共混体。

4.In organic chemistry, bichloride is often used as a reagent in synthesis.

在有机化学中，双氯化物通常用作合成中的试剂。

5.Safety precautions are essential when handling bichloride compounds.

处理双氯化物化合物时，安全预防措施至关重要。

6.The presence of bichloride in the solution indicated contamination.

溶液中存在双氯化物表明污染。

7.Researchers are studying the effects of bichloride on aquatic life.

研究人员正在研究双氯化物对水生生物的影响。

8.The laboratory used bichloride to test the purity of the samples.

实验室使用双氯化物来测试样品的纯度。

作文

Bichloride, or more specifically, dichloride, refers to a chemical compound containing two chlorine atoms. This term is often used in chemistry to describe various substances that have two chlorine atoms bonded to a central atom. One of the most well-known examples of a bichloride is mercuric chloride (HgCl2), which is a highly toxic compound used in laboratories and as a disinfectant. Understanding the properties and applications of bichlorides is crucial for students and professionals in the field of chemistry.In the realm of chemistry, bichlorides play an essential role in various reactions and processes. They can be used as reagents in organic synthesis, where they help facilitate the formation of new compounds. For instance, when a bichloride reacts with an alcohol, it can produce an alkyl chloride, which is a valuable intermediate in the production of pharmaceuticals and other chemicals. This demonstrates how bichlorides are not just limited to their toxic effects but also have significant industrial applications.Moreover, the study of bichlorides extends beyond just their chemical reactions. Safety protocols must be established when handling these compounds due to their potential hazards. For example, mercuric chloride, despite its usefulness, poses serious health risks if ingested or inhaled. Therefore, understanding the safety measures associated with bichlorides is vital for anyone working in a laboratory setting.In addition to their industrial uses, bichlorides also find applications in environmental science. Certain bichlorides, such as chlorinated hydrocarbons, are studied for their impact on ecosystems. Researchers investigate how these compounds can affect wildlife and water quality, leading to discussions about regulations and safe disposal methods. Thus, the significance of bichlorides extends into environmental policy and public health as well.Furthermore, the educational aspect of bichlorides cannot be overlooked. Chemistry educators often introduce students to these compounds to illustrate key concepts such as molecular structure, reactivity, and the importance of chemical safety. Through experiments involving bichlorides, students learn not only about the compounds themselves but also about the broader implications of chemistry in society.In conclusion, bichlorides are more than just chemical terms; they represent a complex intersection of chemistry, safety, industry, and environmental science. Whether in a laboratory, an industrial setting, or an academic classroom, the understanding of bichlorides is essential for advancing knowledge in chemistry and ensuring responsible practices in their use. As we continue to explore the world of chemistry, bichlorides will undoubtedly remain a focal point for research and discussion, highlighting their importance in both scientific inquiry and practical application.

二氯化物，或更具体地说，二氯化物，是指含有两个氯原子的化合物。这个术语在化学中常用于描述各种含有两个氯原子与中心原子结合的物质。最著名的一个例子是氯化汞（HgCl2），这是一种高度毒性的化合物，用于实验室和消毒剂。理解bichlorides的性质和应用对于化学领域的学生和专业人士至关重要。在化学领域，bichlorides在各种反应和过程中发挥着重要作用。它们可以作为有机合成中的试剂，帮助促进新化合物的形成。例如，当bichloride与醇反应时，可以生成烷基氯，这是一种在制药和其他化学品生产中有价值的中间体。这表明bichlorides不仅限于其毒性效应，还有重要的工业应用。此外，研究bichlorides不仅限于其化学反应。在处理这些化合物时，必须建立安全协议，因为它们可能带来危害。例如，氯化汞尽管有用，但如果摄入或吸入，会对健康造成严重风险。因此，了解与bichlorides相关的安全措施对于任何在实验室工作的人都是至关重要的。除了工业用途，bichlorides还在环境科学中找到应用。某些bichlorides，如氯化烃，被研究其对生态系统的影响。研究人员调查这些化合物如何影响野生动物和水质，从而引发关于法规和安全处置方法的讨论。因此，bichlorides的重要性延伸到环境政策和公共健康领域。此外，bichlorides的教育方面也不容忽视。化学教育者通常向学生介绍这些化合物，以说明分子结构、反应性和化学安全的重要性等关键概念。通过涉及bichlorides的实验，学生不仅了解化合物本身，还了解化学在社会中的更广泛影响。总之，bichlorides不仅仅是化学术语；它们代表了化学、安全、工业和环境科学的复杂交汇点。无论是在实验室、工业环境还是学术课堂上，理解bichlorides对于推动化学知识的进步和确保其使用的负责任做法至关重要。随着我们继续探索化学世界，bichlorides无疑将继续成为研究和讨论的焦点，突显其在科学探究和实际应用中的重要性。