aromatic aldehyde

简明释义

芳族醛

英英释义

例句

1.The scent of the flowers was due to the presence of aromatic aldehyde, which gives them their pleasant fragrance.

花朵的香味是由于存在芳香醛，这使它们散发出愉悦的香气。

2.The aromatic aldehyde in vanilla extract contributes to its characteristic flavor and aroma.

香草提取物中的芳香醛成分赋予其特有的风味和香气。

3.During the reaction, we observed the formation of an aromatic aldehyde as one of the products.

在反应过程中，我们观察到生成了一个芳香醛作为其中一种产物。

4.Certain aromatic aldehyde derivatives are known for their antimicrobial properties.

某些芳香醛衍生物以其抗微生物特性而闻名。

5.In organic chemistry, aromatic aldehyde compounds are often used as building blocks for synthesizing more complex molecules.

在有机化学中，芳香醛化合物常被用作合成更复杂分子的基础单位。

作文

Aromatic compounds are an essential class of organic molecules known for their unique stability and distinct fragrances. Among these, aromatic aldehyde (芳香醛) plays a significant role in both nature and industry. An aromatic aldehyde is characterized by the presence of a carbonyl group (C=O) attached to a benzene ring. This structure not only imparts distinctive smells but also makes these compounds highly reactive in chemical reactions. One of the most well-known examples of an aromatic aldehyde is benzaldehyde, which is responsible for the pleasant aroma of almonds. Its applications range from flavoring agents in food to fragrances in perfumes.The significance of aromatic aldehyde extends beyond their aromatic properties. In organic synthesis, these compounds serve as vital intermediates. Due to their reactivity, aromatic aldehydes can participate in various chemical reactions, such as condensation reactions, where they react with other compounds to form larger and more complex molecules. This ability makes them valuable in the production of pharmaceuticals, agrochemicals, and dyes.Moreover, aromatic aldehyde derivatives are often utilized in creating various materials. For instance, some aromatic aldehydes can be polymerized to produce resins that are used in coatings and adhesives. The versatility of these compounds highlights their importance in industrial chemistry.In nature, aromatic aldehydes can be found in many plants and fruits, contributing to their characteristic scents. They are often produced during the metabolism of certain plants and can act as signaling molecules to attract pollinators. The ecological roles of aromatic aldehydes demonstrate their importance beyond mere human usage, showcasing the intricate relationships within ecosystems.However, the use of aromatic aldehyde is not without concerns. Some of these compounds, particularly those that are synthetic, may pose environmental and health risks. For example, certain aromatic aldehydes have been identified as potential allergens or irritants. Therefore, it is crucial to handle them with care and consider their impact on health and the environment.In conclusion, aromatic aldehyde (芳香醛) represents a fascinating intersection of chemistry, biology, and industry. Their unique structures and properties make them invaluable in various applications, from everyday products to complex chemical syntheses. Understanding aromatic aldehydes not only enriches our knowledge of organic chemistry but also emphasizes the importance of responsible usage and environmental considerations. As we continue to explore the world of chemistry, aromatic aldehydes will undoubtedly remain a topic of interest for researchers and industry professionals alike.

芳香化合物是有机分子的重要类别，以其独特的稳定性和独特的香气而闻名。在这些化合物中，芳香醛（aromatic aldehyde）在自然界和工业中都发挥着重要作用。芳香醛的特点是其碳基团（C=O）连接到苯环上。这种结构不仅赋予了这些化合物独特的气味，还使它们在化学反应中具有高度的反应性。最著名的芳香醛之一是苯甲醛，它负责杏仁的愉悦香气。它的应用范围从食品中的调味剂到香水中的香料。芳香醛的重要性超越了其香气特性。在有机合成中，这些化合物作为重要的中间体。由于其反应性，芳香醛可以参与各种化学反应，例如缩合反应，在这些反应中，它们与其他化合物反应形成更大更复杂的分子。这种能力使它们在制药、农用化学品和染料的生产中变得非常有价值。此外，某些芳香醛衍生物通常用于制造各种材料。例如，一些芳香醛可以聚合生成树脂，这些树脂用于涂料和粘合剂。上述化合物的多样性突显了它们在工业化学中的重要性。在自然界中，芳香醛可以在许多植物和水果中找到，贡献于其特有的气味。它们通常在某些植物的代谢过程中产生，并可以作为信号分子吸引授粉者。芳香醛的生态角色展示了它们超越人类使用的重要性，展示了生态系统内复杂的关系。然而，芳香醛的使用并非没有问题。一些合成的芳香醛可能对环境和健康构成风险。例如，某些芳香醛被认为是潜在的过敏原或刺激物。因此，谨慎处理这些化合物并考虑其对健康和环境的影响至关重要。总之，芳香醛（aromatic aldehyde）代表了化学、生物学和工业的迷人交汇点。它们独特的结构和特性使它们在各种应用中不可或缺，从日常产品到复杂的化学合成。理解芳香醛不仅丰富了我们对有机化学的知识，还强调了负责任使用和环境考虑的重要性。随着我们继续探索化学世界，芳香醛无疑将继续成为研究人员和行业专业人士感兴趣的话题。