diffusion isolation

简明释义

扩散隔离

英英释义

例句

1.Researchers found that diffusion isolation could significantly enhance the sensitivity of their sensors.

研究人员发现，扩散隔离可以显著提高传感器的灵敏度。

2.In the context of cellular biology, diffusion isolation is crucial for studying individual cell behaviors.

在细胞生物学的背景下，扩散隔离对研究单个细胞的行为至关重要。

3.To ensure the integrity of the samples, the lab adopted diffusion isolation methods.

为了确保样品的完整性，实验室采用了扩散隔离方法。

4.The use of diffusion isolation techniques allowed for more accurate measurements in the chemical reactions.

使用扩散隔离技术使化学反应中的测量更加准确。

5.The research team implemented diffusion isolation to prevent cross-contamination in their experiments.

研究团队实施了扩散隔离以防止实验中的交叉污染。

作文

The concept of diffusion isolation is a critical aspect of various scientific fields, particularly in chemistry and biology. It refers to the process by which certain substances are prevented from diffusing freely across a barrier, thus isolating them from their surroundings. This phenomenon can be observed in cellular processes, where membranes act as barriers to regulate the movement of ions and molecules. The importance of diffusion isolation lies in its ability to maintain homeostasis within cells, allowing them to function effectively. In biological systems, diffusion isolation plays a significant role in cellular signaling. For instance, neurotransmitters must be isolated within synaptic vesicles until they are needed for communication between neurons. This isolation ensures that signals are transmitted accurately and efficiently. If these neurotransmitters were allowed to diffuse freely into the surrounding area, it could lead to a loss of signal specificity and potentially disrupt neural communication.Moreover, diffusion isolation is essential in laboratory settings, particularly in experiments involving diffusion rates. Scientists often use diffusion isolation techniques to study how different substances interact with one another. By isolating certain variables, researchers can obtain clearer data and draw more accurate conclusions. For example, in drug delivery research, isolating the drug from other components can help determine its effectiveness and rate of absorption in the body.In environmental science, diffusion isolation can help explain how pollutants disperse in various ecosystems. Understanding how certain chemicals are isolated within water bodies or soil can provide insights into their long-term effects on the environment. This knowledge is crucial for developing strategies to mitigate pollution and protect natural habitats.Additionally, diffusion isolation has applications in material science. Engineers and scientists study how different materials can isolate specific gases or liquids through diffusion barriers. This research is vital for creating advanced materials that can filter contaminants or enhance energy efficiency in various applications, such as batteries and fuel cells.In conclusion, diffusion isolation is a multifaceted concept that spans multiple disciplines. Its implications are vast, ranging from cellular function to environmental protection and technological advancements. By understanding the principles of diffusion isolation, we can better appreciate the complexities of biological systems, improve scientific research methodologies, and develop innovative solutions to contemporary challenges. The study of diffusion isolation not only enhances our knowledge of fundamental processes but also opens up new avenues for exploration and discovery in science and technology.

‘扩散隔离’的概念是多个科学领域中一个重要的方面，特别是在化学和生物学中。它指的是某些物质被阻止自由地穿过屏障，从而将其与周围环境隔离的过程。这种现象可以在细胞过程中观察到，其中膜作为屏障调节离子和分子的运动。‘扩散隔离’的重要性在于它能够维持细胞内的稳态，使其有效运作。在生物系统中，‘扩散隔离’在细胞信号传递中发挥着重要作用。例如，神经递质必须在突触囊泡内被隔离，直到它们需要用于神经元之间的通信。这种隔离确保信号的准确和高效传递。如果这些神经递质被允许自由扩散到周围区域，可能导致信号特异性的丧失，并可能干扰神经通信。此外，‘扩散隔离’在实验室环境中也至关重要，尤其是在涉及扩散速率的实验中。科学家们常常使用扩散隔离技术来研究不同物质之间的相互作用。通过隔离某些变量，研究人员可以获得更清晰的数据并得出更准确的结论。例如，在药物传递研究中，将药物与其他成分隔离可以帮助确定其在体内的有效性和吸收速率。在环境科学中，‘扩散隔离’可以帮助解释污染物在各种生态系统中的扩散方式。了解某些化学物质如何在水体或土壤中被隔离，可以提供对其对环境长期影响的见解。这些知识对于制定减轻污染和保护自然栖息地的策略至关重要。此外，‘扩散隔离’在材料科学中也有应用。工程师和科学家研究不同材料如何通过扩散屏障隔离特定气体或液体。这项研究对于创造能够过滤污染物或提高各种应用（如电池和燃料电池）能效的先进材料至关重要。总之，‘扩散隔离’是一个跨越多个学科的多面概念。它的影响范围广泛，从细胞功能到环境保护以及技术进步。通过理解‘扩散隔离’的原理，我们可以更好地理解生物系统的复杂性，改善科学研究方法，并开发出应对当代挑战的创新解决方案。对‘扩散隔离’的研究不仅增强了我们对基本过程的知识，还为科学和技术的探索与发现开辟了新的途径。