non polar linkage

简明释义

非极性键

英英释义

例句

1.Understanding non polar linkages (非极性连接) is crucial for predicting molecular interactions.

理解non polar linkages (非极性连接) 对于预测分子相互作用至关重要。

2.The non polar linkages (非极性连接) in the fatty acids determine their solubility in organic solvents.

脂肪酸中的non polar linkages (非极性连接) 决定了它们在有机溶剂中的溶解性。

3.In lipid bilayers, non polar linkages (非极性连接) help maintain the integrity of the membrane.

在脂质双层中，non polar linkages (非极性连接) 有助于维持膜的完整性。

4.The structure of the molecule is stabilized by the non polar linkage (非极性连接) between the carbon chains.

分子的结构通过碳链之间的non polar linkage (非极性连接) 得到稳定。

5.The non polar linkages (非极性连接) in this polymer contribute to its hydrophobic properties.

这个聚合物中的non polar linkages (非极性连接) 使其具有疏水特性。

作文

In the realm of chemistry, understanding the nature of molecular interactions is crucial. One important concept that often arises in this context is the idea of non polar linkage. A non polar linkage refers to a type of bond between atoms where there is an equal sharing of electrons, resulting in no significant charge difference across the molecule. This characteristic is essential for various biological and chemical processes. For instance, many lipids in cell membranes are composed of non polar molecules that do not interact favorably with water. This property allows them to form bilayers, which are fundamental to cellular structure and function. The significance of non polar linkage extends beyond just structural aspects. In biochemical pathways, molecules that exhibit non polar linkage often play critical roles in energy storage and signaling. For example, triglycerides, which consist of glycerol and three fatty acids linked by non polar linkages, serve as a major energy reserve in organisms. Their hydrophobic nature means they can store large amounts of energy without affecting the osmotic balance within cells. Moreover, the behavior of substances with non polar linkages in different solvents is a topic of great interest. Non polar compounds tend to dissolve well in non polar solvents, which is a principle that underlies many extraction and purification techniques in organic chemistry. Conversely, they do not mix with polar solvents like water, leading to the classic saying, 'like dissolves like.' This principle is vital in various applications, from formulating pharmaceuticals to designing effective cleaning agents. Additionally, the presence of non polar linkages in polymers contributes to their physical properties. For example, polyethylene, which is made up of long chains of repeating units linked by non polar linkages, exhibits flexibility and durability. These properties make it suitable for a wide range of applications, from packaging materials to components in automotive and aerospace industries. Understanding non polar linkages also has implications in environmental science. Many pollutants, such as certain hydrocarbons, possess non polar linkages, which affects their solubility and transport in the environment. This knowledge is crucial for developing strategies to mitigate pollution and remediate contaminated sites. In conclusion, the concept of non polar linkage is fundamental in various fields of science. Its implications stretch from molecular biology to industrial applications and environmental science. By grasping the importance of non polar linkages, we can better understand the behavior of different substances and their interactions, paving the way for advancements in technology and improvements in our understanding of natural processes.

在化学领域，理解分子间的相互作用本质至关重要。一个经常出现的重要概念是非极性连接的概念。非极性连接指的是原子之间的一种键合，其中电子的均匀分配导致分子之间没有显著的电荷差异。这一特性对于各种生物和化学过程至关重要。例如，细胞膜中的许多脂质由不与水良好相互作用的非极性分子组成。这种特性使它们能够形成双层，这是细胞结构和功能的基础。非极性连接的重要性不仅仅体现在结构方面。在生化途径中，表现出非极性连接的分子往往在能量储存和信号传递中发挥关键作用。例如，甘油三酯由甘油和三个通过非极性连接连接的脂肪酸组成，作为生物体的主要能量储备。它们的疏水性意味着它们可以在不影响细胞内渗透平衡的情况下储存大量能量。此外，具有非极性连接的物质在不同溶剂中的行为也是一个备受关注的话题。非极性化合物在非极性溶剂中通常溶解良好，这一原理是有机化学中许多提取和纯化技术的基础。相反，它们与极性溶剂（如水）不混合，这导致了经典的说法“同类相溶”。这一原理在从制药配方到设计有效清洁剂的各种应用中至关重要。此外，聚合物中存在的非极性连接也会影响其物理性质。例如，聚乙烯由通过非极性连接连接的重复单元长链组成，表现出柔韧性和耐久性。这些特性使其适用于从包装材料到汽车和航空航天工业部件的广泛应用。理解非极性连接在环境科学中也具有重要意义。许多污染物，例如某些烃类，具有非极性连接，这影响了它们在环境中的溶解度和运输。这一知识对于开发减轻污染和修复受污染场地的策略至关重要。总之，非极性连接的概念在多个科学领域中是基础性的。它的影响从分子生物学延伸到工业应用和环境科学。通过掌握非极性连接的重要性，我们可以更好地理解不同物质的行为及其相互作用，为技术进步和对自然过程理解的提高铺平道路。