intermediate compound

简明释义

中间化合物

英英释义

例句

1.The formation of an intermediate compound 中间化合物 can be crucial for controlling the yield of the desired product.

形成 中间化合物 intermediate compound 对于控制所需产品的产量至关重要。

2.Researchers are investigating the stability of the intermediate compound 中间化合物 to optimize the reaction conditions.

研究人员正在调查 中间化合物 intermediate compound 的稳定性，以优化反应条件。

3.During the experiment, we isolated an intermediate compound 中间化合物 that had not been previously reported.

在实验过程中，我们分离出一种之前未报告的 中间化合物 intermediate compound。

4.The reaction pathway includes several steps, each producing an intermediate compound 中间化合物 before arriving at the final product.

反应路径包括几个步骤，每个步骤产生一个 中间化合物 intermediate compound，然后到达最终产品。

5.In organic chemistry, an intermediate compound 中间化合物 is often formed during the synthesis of a final product.

在有机化学中，中间化合物 intermediate compound 通常是在最终产品的合成过程中形成的。

作文

In the field of chemistry, the term intermediate compound refers to a substance that forms during the conversion of reactants to products in a chemical reaction. These compounds are crucial in understanding the mechanisms of reactions and can provide insights into how certain processes occur at a molecular level. For instance, when synthesizing a complex organic molecule, chemists often encounter several intermediate compounds that play pivotal roles in the overall reaction pathway. Understanding these intermediate compounds is essential not only for theoretical knowledge but also for practical applications. In drug development, for example, identifying and characterizing intermediate compounds can help researchers optimize synthesis routes, improve yields, and minimize side reactions. This is particularly important in the pharmaceutical industry, where the efficiency of a synthetic pathway can significantly affect the cost and viability of a new drug. Moreover, the study of intermediate compounds can lead to the discovery of new reactions or even new classes of compounds. Chemists might find that certain intermediate compounds exhibit unique properties that were previously unknown, opening up new avenues for research and application. For example, a previously overlooked intermediate compound could serve as a catalyst or a key ingredient in a new material. In addition to their importance in organic synthesis, intermediate compounds are also significant in biochemical pathways. Many metabolic processes involve multiple steps, each producing various intermediate compounds that are necessary for the subsequent reactions. Understanding these pathways is vital for biochemistry and medicine, as it allows scientists to pinpoint where things may go wrong in diseases and how to potentially correct them. Furthermore, the identification of intermediate compounds can aid in environmental chemistry. For instance, when studying the degradation of pollutants, researchers often look for intermediate compounds formed during the breakdown process. This information can help in developing strategies for bioremediation, where living organisms are used to clean up contaminated environments. In conclusion, intermediate compounds are a fundamental aspect of chemical and biochemical research. Their role in reactions, their potential for discovery, and their implications in various fields underscore their significance. As we continue to explore the complexities of chemistry and biology, the understanding of intermediate compounds will undoubtedly contribute to advancements in science and technology, leading to innovative solutions to current challenges.

在化学领域，术语中间化合物指的是在化学反应中反应物转化为产物时形成的物质。这些化合物对于理解反应机制至关重要，并可以提供有关某些过程如何在分子层面上发生的见解。例如，在合成复杂有机分子时，化学家们通常会遇到几个在整体反应路径中起关键作用的中间化合物。理解这些中间化合物不仅对理论知识至关重要，而且对实际应用也非常重要。在药物开发中，例如，识别和表征中间化合物可以帮助研究人员优化合成路线，提高产率，最小化副反应。这在制药行业尤为重要，因为合成途径的效率可以显著影响新药的成本和可行性。此外，研究中间化合物可能导致新反应或甚至新类别化合物的发现。化学家可能会发现某些中间化合物表现出以前未知的独特性质，从而开启新的研究和应用途径。例如，之前被忽视的中间化合物可能作为催化剂或新材料的关键成分。除了在有机合成中的重要性外，中间化合物在生化途径中也具有重要意义。许多代谢过程涉及多个步骤，每个步骤都产生各种必要的中间化合物，以便后续反应。理解这些途径对于生物化学和医学至关重要，因为它使科学家能够确定疾病中可能出现的问题以及如何潜在地纠正它们。此外，中间化合物的识别可以帮助环境化学。例如，在研究污染物降解时，研究人员通常会寻找在分解过程中形成的中间化合物。这些信息可以帮助制定生物修复策略，即利用生物体清理受污染的环境。总之，中间化合物是化学和生化研究的基本方面。它们在反应中的作用、发现的潜力以及在各个领域的影响凸显了它们的重要性。随着我们继续探索化学和生物学的复杂性，对中间化合物的理解无疑将有助于科学和技术的进步，带来创新的解决方案，以应对当前的挑战。