solubilisation

简明释义

英[ˌsɑːl.jə.bɪ.laɪˈzeɪ.ʃən]美[ˌsɑːl.jə.bɪ.laɪˈzeɪ.ʃən]

n. 溶液化（等于 solubilization）

英英释义

单词用法

同义词

反义词

例句

1.This paper describes our approach and rationale for isolating Penicillium from soil, their identification, and testing for phosphate solubilisation and plant growth promoting activities.

本文介绍从土壤中分离、鉴定青霉菌、青霉菌的解磷作用以及对植物生长的刺激作用的研究方法以及策略。

2.This paper describes our approach and rationale for isolating Penicillium from soil, their identification, and testing for phosphate solubilisation and plant growth promoting activities.

本文介绍从土壤中分离、鉴定青霉菌、青霉菌的解磷作用以及对植物生长的刺激作用的研究方法以及策略。

3.The process of solubilisation is crucial in pharmaceuticals to ensure that drugs dissolve properly in the body.

在制药过程中，溶解的过程至关重要，以确保药物在体内正确溶解。

4.Researchers are studying the solubilisation of nanoparticles to improve their effectiveness in drug delivery systems.

研究人员正在研究纳米粒子的溶解以提高其在药物递送系统中的有效性。

5.The solubilisation of certain compounds can enhance their bioavailability.

某些化合物的溶解可以增强其生物利用度。

6.The solubilisation of oils in water is often achieved using emulsifiers.

油在水中的溶解通常是通过使用乳化剂来实现的。

7.In food science, solubilisation helps in the extraction of flavors and nutrients from natural sources.

在食品科学中，溶解有助于从自然来源提取风味和营养成分。

作文

In the field of chemistry, the process of solubilisation is crucial for understanding how substances interact in various environments. Solubilisation refers to the process through which a solid, liquid, or gas becomes soluble in a solvent, leading to the formation of a solution. This phenomenon is not only important in laboratory settings but also has significant implications in industries such as pharmaceuticals, food production, and environmental science.To illustrate the importance of solubilisation, consider the pharmaceutical industry. Many medications are designed to be taken orally, and their effectiveness often depends on their ability to dissolve in the gastrointestinal tract. If a drug does not undergo solubilisation effectively, it may not be absorbed into the bloodstream, rendering it ineffective. Therefore, researchers must carefully consider the solubility of compounds when developing new medications. Techniques such as altering the chemical structure of a drug or formulating it with specific excipients can enhance solubilisation, improving the overall efficacy of the medication.Moreover, in the food industry, solubilisation plays a vital role in product formulation. For example, when creating beverages, manufacturers must ensure that all ingredients, including flavors, colors, and nutrients, are properly solubilized to achieve a consistent and palatable product. An inadequate solubilisation process can lead to separation or sedimentation, negatively affecting the consumer's experience. Thus, understanding the principles of solubilisation allows food scientists to create stable and appealing products.Environmental science also benefits from the concept of solubilisation. Contaminants in soil and water often exist in solid forms and can pose significant risks to ecosystems and human health. Through the process of solubilisation, these contaminants can be transformed into soluble forms, making them easier to remove or neutralize. For instance, bioremediation techniques often rely on enhancing the solubilisation of pollutants to facilitate their breakdown by microorganisms. By understanding how to manipulate solubilisation, environmental scientists can develop more effective strategies for cleaning up contaminated sites.In addition to its practical applications, solubilisation is also a fascinating subject of study in scientific research. Scientists explore the molecular mechanisms behind solubilisation, examining factors such as temperature, pressure, and the nature of the solvent. These studies help to deepen our understanding of chemical interactions and can lead to the discovery of new materials or processes.In conclusion, solubilisation is a fundamental concept in chemistry with far-reaching implications across various fields. Whether in developing life-saving medications, creating enjoyable food products, or addressing environmental challenges, the ability to understand and manipulate solubilisation is essential. As research continues to advance, the importance of this process will only grow, highlighting the need for ongoing education and exploration in the sciences. Ultimately, mastering the concept of solubilisation not only enhances our knowledge of chemistry but also equips us with the tools needed to tackle real-world problems effectively.

在化学领域，溶解化过程对于理解物质在各种环境中的相互作用至关重要。溶解化是指固体、液体或气体在溶剂中变得可溶的过程，从而形成溶液。这一现象不仅在实验室环境中重要，而且在制药、食品生产和环境科学等行业也具有重要意义。为了说明溶解化的重要性，可以考虑制药行业。许多药物设计为口服服用，其有效性往往取决于它们在胃肠道中的溶解能力。如果药物未能有效地进行溶解化，则可能无法被吸收到血液中，从而使其失去效用。因此，研究人员在开发新药时必须仔细考虑化合物的溶解性。通过改变药物的化学结构或将其配制与特定辅料结合，可以增强溶解化，提高药物的整体功效。此外，在食品行业，溶解化在产品配方中也起着至关重要的作用。例如，在制造饮料时，制造商必须确保所有成分，包括风味、颜色和营养成分，都得到适当的溶解，以实现一致且令人愉悦的产品。不充分的溶解化过程可能导致分离或沉淀，从而对消费者体验产生负面影响。因此，了解溶解化的原理使食品科学家能够创造出稳定且吸引人的产品。环境科学也受益于溶解化的概念。土壤和水中的污染物通常以固体形式存在，并可能对生态系统和人类健康构成重大风险。通过溶解化过程，这些污染物可以转化为可溶形式，使其更容易去除或中和。例如，生物修复技术常常依赖于增强溶解化来促进微生物对污染物的降解。通过理解如何操控溶解化，环境科学家可以制定更有效的清理受污染地点的策略。除了实际应用，溶解化也是科学研究中一个引人入胜的研究主题。科学家们探索溶解化背后的分子机制，研究温度、压力和溶剂性质等因素。这些研究有助于加深我们对化学相互作用的理解，并可能导致新材料或新工艺的发现。总之，溶解化是化学中的一个基本概念，具有广泛的跨领域影响。无论是在开发救命药物、创造美味食品产品，还是解决环境挑战方面，理解和操控溶解化的能力都是必不可少的。随着研究的不断推进，这一过程的重要性只会增加，突显了在科学领域持续教育和探索的必要性。最终，掌握溶解化的概念不仅增强了我们对化学的理解，还为我们提供了有效应对现实问题所需的工具。