amphiphiles

简明释义

英[æmˈfɪfaɪlz]美[æmˈfɪfaɪlz]

两亲化合物

两亲物

双亲分子（amphiphile 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.The ability of Sunfish amphiphiles to attain a nonbilayer packing is a function of the interplay between the two alkyl chains, determined by their length and presence of unsaturation(s).

Sunfish两亲化合物可以形成非双层结构的堆积，这与两个烷基链间的相互作用有关（这种相互作用由烷基链的长度与不饱和度决定）。

2.The theory of elasticity and thermal undulations of fluid membranes of amphiphiles is reviewed.

本文简要评述了双亲分子流体膜的弹性与热力学涨落的理论研究现状。

3.The Sunfish amphiphiles were selected in such a way that the effect of small structural variations on the aggregation behavior could be identified by comparison.

我们依据可通过比较微小的结构变化对其聚集行为的影响的原则，来选择Sunfish两亲化合物，进行研究。

4.Liposomes originate from amphiphiles and self-assembly, so it is of great importance to study the theory of self-assembly for the production of liposomes.

两亲结构和自组装体的形成是脂质体形成的基础，研究自组装体的理论基础对于脂质体的制备具有重要的理论指导意义。

5.In chapter two we synthesized four linear-chain polymerizable amphiphiles.

第二章的工作设计合成了多个直链型可聚合双亲分子。

6.The ability of Sunfish amphiphiles to attain a nonbilayer packing is a function of the interplay between the two alkyl chains, determined by their length and presence of unsaturation(s).

Sunfish两亲化合物可以形成非双层结构的堆积，这与两个烷基链间的相互作用有关（这种相互作用由烷基链的长度与不饱和度决定）。

7.The molecular design of conventional amphiphiles of synthetic bilayer membranes was based on the consideration of hydrophobic chain interaction.

合成双分子膜的传统两亲分子设计是基于疏水尾链间相互作用的考虑。

8.In drug delivery systems, amphiphiles 两亲分子 can encapsulate hydrophobic drugs to enhance their solubility.

在药物传递系统中，amphiphiles 两亲分子 能够包裹疏水性药物以提高其溶解度。

9.The behavior of amphiphiles 两亲分子 at interfaces is essential for understanding emulsification processes.

理解 amphiphiles 两亲分子 在界面上的行为对于理解乳化过程至关重要。

10.Surfactants are common examples of amphiphiles 两亲分子 that reduce surface tension in liquids.

表面活性剂是常见的 amphiphiles 两亲分子，它们能降低液体的表面张力。

11.Researchers study amphiphiles 两亲分子 to design better detergents and cleaning products.

研究人员研究 amphiphiles 两亲分子 以设计更好的洗涤剂和清洁产品。

12.In the formation of cell membranes, amphiphiles 两亲分子 play a crucial role by arranging themselves into a bilayer structure.

在细胞膜的形成中，amphiphiles 两亲分子 通过自我排列成双层结构发挥了关键作用。

作文

In the realm of chemistry and biology, the term amphiphiles refers to molecules that possess both hydrophilic (water-attracting) and hydrophobic (water-repelling) properties. These unique characteristics allow amphiphiles to play a crucial role in various biological processes and applications. For instance, when amphiphiles are placed in an aqueous environment, they tend to arrange themselves into structures known as micelles or bilayers. This self-organization is driven by the desire of the hydrophobic tails to avoid water while the hydrophilic heads seek interaction with the surrounding water molecules. This behavior is fundamental in the formation of cell membranes, where phospholipids, a type of amphiphile, create a bilayer that serves as a barrier between the internal and external environments of cells.The importance of amphiphiles extends beyond cellular structures; they are also vital in various industrial and pharmaceutical applications. For example, in drug delivery systems, amphiphiles can encapsulate hydrophobic drugs, improving their solubility and bioavailability. Additionally, in the field of cosmetics, amphiphiles are used in formulations to enhance the stability and efficacy of products such as shampoos and lotions, allowing for a better interaction with skin and hair.Moreover, the study of amphiphiles has led to significant advancements in nanotechnology. Researchers utilize these molecules to create nanoparticles that can deliver drugs directly to targeted cells, minimizing side effects and maximizing therapeutic effects. The ability of amphiphiles to form stable structures in various environments makes them ideal candidates for developing innovative solutions in medicine and materials science.Understanding the properties and functions of amphiphiles is essential for students and professionals in scientific fields. Their dual nature not only exemplifies the complexity of molecular interactions but also highlights the elegance of nature's design in biological systems. As we continue to explore the capabilities of amphiphiles, we uncover new potential applications that could revolutionize industries ranging from healthcare to environmental science.In conclusion, amphiphiles are more than just chemical compounds; they are integral components of life and technology. Their unique structure allows them to perform vital roles in biological membranes, drug delivery, and nanotechnology. By furthering our understanding of amphiphiles, we can harness their properties to develop innovative solutions to some of the world's most pressing challenges. The study of amphiphiles not only enriches our knowledge of chemistry and biology but also paves the way for future discoveries that may benefit society as a whole.

在化学和生物学领域，术语amphiphiles指的是具有亲水（吸水）和疏水（排水）特性的分子。这些独特的特性使得amphiphiles在各种生物过程和应用中发挥着至关重要的作用。例如，当amphiphiles置于水环境中时，它们往往会自我排列成称为胶束或双层的结构。这种自我组织是由疏水尾部避免水的愿望驱动的，而亲水头部则寻求与周围水分子的相互作用。这种行为在细胞膜的形成中是基础的，其中磷脂类（amphiphile的一种）创造了一个双层，作为细胞内部和外部环境之间的屏障。amphiphiles的重要性超越了细胞结构；它们在各种工业和制药应用中也至关重要。例如，在药物输送系统中，amphiphiles可以包裹疏水药物，提高其溶解度和生物利用度。此外，在化妆品领域，amphiphiles被用于配方中，以增强洗发水和乳液等产品的稳定性和功效，从而改善与皮肤和头发的相互作用。此外，对amphiphiles的研究推动了纳米技术的重大进展。研究人员利用这些分子创建纳米颗粒，可以直接将药物输送到目标细胞，最小化副作用并最大化治疗效果。amphiphiles能够在各种环境中形成稳定结构，使其成为开发医学和材料科学创新解决方案的理想候选者。理解amphiphiles的特性和功能对科学领域的学生和专业人士至关重要。它们的双重性质不仅体现了分子相互作用的复杂性，还突显了自然设计在生物系统中的优雅。随着我们对amphiphiles能力的进一步探索，我们发现新的潜在应用，这些应用可能会彻底改变从医疗到环境科学等行业。总之，amphiphiles不仅仅是化合物；它们是生命和技术的组成部分。它们独特的结构使它们在生物膜、药物输送和纳米技术中发挥重要作用。通过进一步了解amphiphiles，我们可以利用它们的特性开发创新解决方案，以应对世界上最紧迫的挑战。对amphiphiles的研究不仅丰富了我们对化学和生物学的知识，也为未来的发现铺平了道路，这些发现可能会使整个社会受益。