adsorptive
简明释义
adj. 吸附的
英英释义
Relating to the process by which atoms, ions, or molecules from a gas, liquid, or dissolved solid adhere to a surface. | 与气体、液体或溶解固体中的原子、离子或分子附着于表面的过程有关。 |
单词用法
吸附能力 | |
吸附过程 | |
吸附材料 | |
吸附过滤 | |
吸附去除 | |
吸附相互作用 |
同义词
| 吸附的 | The adsorptive properties of the material make it suitable for filtration. | 该材料的吸附特性使其适合用于过滤。 | |
| 吸附性的 | The sorptive capacity of the soil affects its ability to retain nutrients. | 土壤的吸附能力影响其保留养分的能力。 |
反义词
例句
1.The application of surfactants in membrane separation, extraction separation, adsorptive separation and foam separation were discussed in article .
介绍了表面活性剂在膜分离,萃取分离,吸附分离,泡沫分离中的应用。
2.The polarographic complex adsorptive wave was firstly used to detect DNA specific sequences of the phosphinothricin acetyltransferase(PAT)gene.
应用极谱络合吸附波方法检测了草丁膦乙酰转移酶基因(PAT基因)的DNA特定序列。
3.OBJECTIVE: To enrich and purify Achyranthes Bidentata Saponins with macroporous adsorptive resins.
目的应用大孔吸附树脂富集纯化牛膝总皂苷。
4.OBJECTIVE To optimize the purification method of the total isoflavones in Chuanshegan with macroporous adsorptive resin.
目的研究大孔吸附树脂分离纯化川射干中异黄酮的工艺条件及参数。
5.The degradation reaction of adsorptive immobilized microorganisms on DBP was according with the first-order model.
吸附固定化微生物对DBP的降解符合一级反应动力学模型。
6.Objective to study the adsorptive property of novel absorbents for plasma bilirubin and cytokines in severe hepatitis patients.
目的观察各类新型吸附剂对重型肝炎患者血浆中的胆红素和细胞因子的吸附性能。
7.High speed camera system (HSCS) was employed to measure microbubbles dynamically in adsorptive bubble separator.
本文采用高速摄像系统对泡载分离器内微气泡进行了在线动态测量。
8.The aluminium citrate could strongly inhibit the adsorptive activity of quartz.
柠檬酸铝具有拮抗石英吸附膜蛋白的作用。
9.The adsorptive 吸附的 capacity of activated carbon makes it a popular choice for water treatment.
活性炭的adsorptive 吸附的能力使其成为水处理中的热门选择。
10.The new filter material has excellent adsorptive 吸附的 properties, making it ideal for air purification.
这种新型过滤材料具有优异的adsorptive 吸附的特性,非常适合用于空气净化。
11.Understanding the adsorptive 吸附的 behavior of materials is crucial in designing effective catalysts.
理解材料的adsorptive 吸附的行为对于设计有效的催化剂至关重要。
12.In the laboratory, scientists often use adsorptive 吸附的 techniques to separate different compounds.
在实验室中,科学家们常常使用adsorptive 吸附的技术来分离不同的化合物。
13.The research focused on enhancing the adsorptive 吸附的 properties of polymers for better environmental applications.
这项研究集中在增强聚合物的adsorptive 吸附的特性,以便更好地应用于环境领域。
作文
In the world of materials science, the term adsorptive (吸附的) properties of substances play a crucial role in various applications. Understanding how different materials interact with molecules is fundamental to developing new technologies in fields such as environmental science, medicine, and engineering. This essay aims to explore the significance of adsorptive (吸附的) materials, their mechanisms, and their practical applications.To begin with, it is essential to define what adsorptive (吸附的) means. The term refers to the ability of a material to attract and hold molecules from a gas or liquid on its surface. This process differs from absorption, where a substance permeates into the bulk of another material. The adsorptive (吸附的) capacity of a material depends on various factors, including surface area, chemical composition, and the nature of the molecules involved.One of the most common examples of adsorptive (吸附的) materials is activated carbon. Due to its high surface area and porous structure, activated carbon is widely used in air and water purification systems. When pollutants come into contact with activated carbon, they are attracted to its surface and held there, effectively removing them from the environment. This adsorptive (吸附的) process is vital for ensuring clean drinking water and reducing harmful emissions in the atmosphere.Another area where adsorptive (吸附的) materials are essential is in drug delivery systems. Researchers are investigating various polymers and nanoparticles that exhibit adsorptive (吸附的) properties to enhance the efficacy of medications. By designing materials that can selectively bind to specific drugs, scientists can improve the targeted delivery of therapeutics, minimizing side effects and enhancing treatment outcomes.Moreover, adsorptive (吸附的) materials are also crucial in catalysis. Catalysts are substances that increase the rate of a chemical reaction without being consumed in the process. Many catalysts work by providing an adsorptive (吸附的) surface where reactants can gather, facilitating their interaction and leading to the formation of products. This principle is applied in various industrial processes, including the production of fertilizers and the refining of petroleum.In environmental applications, adsorptive (吸附的) materials are employed to capture greenhouse gases and other pollutants. For instance, researchers are developing novel adsorptive (吸附的) materials capable of sequestering carbon dioxide from the atmosphere. By enhancing the adsorptive (吸附的) capacity of these materials, we can combat climate change more effectively and contribute to a sustainable future.In conclusion, the study of adsorptive (吸附的) materials is vital across multiple disciplines. Their ability to attract and hold molecules on their surfaces has far-reaching implications for environmental protection, healthcare, and industrial processes. As research continues to advance, we can expect to see innovative applications of adsorptive (吸附的) materials that will help address some of the most pressing challenges facing our world today. Understanding and harnessing the power of adsorptive (吸附的) properties will undoubtedly lead to significant advancements in technology and sustainability.
在材料科学领域,术语adsorptive(吸附的)物质的特性在各种应用中发挥着至关重要的作用。理解不同材料如何与分子相互作用是开发新技术的基础,这些技术涉及环境科学、医学和工程等领域。本文旨在探讨adsorptive(吸附的)材料的重要性、其机制及其实际应用。首先,有必要定义adsorptive(吸附的)的含义。该术语指的是一种材料从气体或液体中吸引并保持分子的能力。这个过程与吸收不同,后者是指一种物质渗透到另一种材料的内部。材料的adsorptive(吸附的)能力取决于多种因素,包括表面积、化学组成和所涉及分子的性质。一个最常见的adsorptive(吸附的)材料的例子是活性炭。由于其高表面积和多孔结构,活性炭被广泛应用于空气和水的净化系统。当污染物与活性炭接触时,它们会被吸引到其表面并被固定,从而有效地将其从环境中去除。这一adsorptive(吸附的)过程对于确保饮用水的清洁和减少大气中的有害排放至关重要。此外,adsorptive(吸附的)材料在药物递送系统中也至关重要。研究人员正在研究各种聚合物和纳米颗粒,这些材料表现出adsorptive(吸附的)特性,以增强药物的疗效。通过设计能够选择性结合特定药物的材料,科学家可以改善治疗药物的靶向递送,最小化副作用并提高治疗效果。此外,adsorptive(吸附的)材料在催化中也至关重要。催化剂是指在化学反应中加速反应速率而不被消耗的物质。许多催化剂通过提供一个adsorptive(吸附的)表面,使反应物聚集,从而促进它们的相互作用并形成产品。这一原理应用于各种工业过程,包括肥料生产和石油精炼。在环境应用中,adsorptive(吸附的)材料被用于捕获温室气体和其他污染物。例如,研究人员正在开发新型adsorptive(吸附的)材料,能够从大气中捕获二氧化碳。通过增强这些材料的adsorptive(吸附的)能力,我们可以更有效地应对气候变化,并为可持续未来做出贡献。总之,研究adsorptive(吸附的)材料在多个学科中至关重要。它们在其表面吸引和保持分子的能力对环境保护、医疗保健和工业过程具有深远的影响。随着研究的不断进展,我们可以期待看到adsorptive(吸附的)材料的创新应用,这将有助于解决当今世界面临的一些最紧迫的挑战。理解和利用adsorptive(吸附的)特性的力量无疑将推动技术和可持续性的重要进步。
