adsorbable
简明释义
adj. 能吸附的
英英释义
Capable of being adsorbed, meaning that a substance can adhere to the surface of another material. | 能够被吸附的,意味着一种物质可以附着在另一种材料的表面上。 |
单词用法
可吸附材料 | |
可吸附化合物 | |
吸附到表面上 | |
高度可吸附的物质 |
同义词
| 可附着的 | 该材料可以附着在各种表面上。 | ||
| 吸附性的 | The adsorptive properties of the filter media enhance its performance. | 过滤介质的吸附性能增强了其性能。 | |
| 可粘附的 | 这种粘合剂可以粘附在金属和塑料上。 |
反义词
例句
1.AOX (adsorbable organic halogen) was an important signal of artificial pollution.
可吸附有机卤化物(AOX)是人为污染的重要标志之一。
2.Indigo shows the similar adsorbable performance to the three kinds of protein as Langmuir's.
靛蓝对三种酶蛋白的吸附和朗格·缪尔吸附大致吻合。
3.Indigo shows the similar adsorbable performance to the three kinds of protein as Langmuir's.
靛蓝对三种酶蛋白的吸附和朗格·缪尔吸附大致吻合。
4.Certain dyes are adsorbable 可吸附的 by specific types of clay used in art.
某些染料可以被用于艺术的特定类型的粘土可吸附的。
5.Activated carbon is known for its adsorbable 可吸附的 properties, making it ideal for air purification.
活性炭以其可吸附的特性而闻名,使其成为空气净化的理想选择。
6.The new water filter uses materials that are highly adsorbable 可吸附的 to remove impurities.
这种新型水过滤器使用高可吸附的材料来去除杂质。
7.The researchers tested various compounds to find the most adsorbable 可吸附的 for their experiment.
研究人员测试了各种化合物,以找到最可吸附的用于他们的实验。
8.In environmental science, certain pollutants are known to be adsorbable 可吸附的 onto soil particles.
在环境科学中,某些污染物被认为是可以被土壤颗粒可吸附的。
作文
In the realm of chemistry and materials science, the term adsorbable refers to the ability of a substance to adhere to a surface through the process of adsorption. This phenomenon is distinct from absorption, where a substance is taken up into the bulk of another material. Understanding what it means for a material to be adsorbable is crucial in various applications, including environmental science, pharmaceuticals, and industrial processes.For instance, in water treatment facilities, certain contaminants can be effectively removed from water by using adsorbable materials such as activated carbon. Activated carbon has a large surface area and porous structure, allowing it to trap impurities from water through adsorption. When water passes through a column of activated carbon, harmful substances cling to its surface, significantly improving the quality of the water. This application showcases the practical importance of adsorbable materials in ensuring safe drinking water.Moreover, in the pharmaceutical industry, the concept of adsorbable compounds is vital for drug delivery systems. Many drugs are designed to be adsorbable onto specific carriers that facilitate their transport within the body. For example, nanoparticles that are adsorbable can be engineered to attach to targeted cells, increasing the efficacy of the treatment while minimizing side effects. This targeted approach not only enhances the therapeutic impact of the drugs but also highlights the significance of understanding adsorption properties in drug formulation.Additionally, the role of adsorbable materials extends to environmental remediation. Contaminants such as heavy metals and organic pollutants can be captured using adsorbable materials in soil and water bodies. For instance, biochar, a form of charcoal produced from biomass, has been found to be highly adsorbable for various pollutants. Its use in soil not only improves soil health but also helps in sequestering harmful substances, demonstrating the dual benefits of utilizing adsorbable materials in ecological restoration efforts.The study of adsorbable materials also opens avenues for innovation in technology. For example, researchers are exploring how to create new adsorbable coatings for surfaces that can capture airborne pollutants or even viruses. Such advancements could lead to significant improvements in air quality and public health. The versatility of adsorbable materials makes them a focal point for ongoing research and development across multiple disciplines.In conclusion, the term adsorbable encapsulates a fundamental concept in the interaction between substances and surfaces. From enhancing water purification processes to revolutionizing drug delivery systems and contributing to environmental sustainability, the implications of adsorbable materials are profound. As we continue to explore the potential of these materials, it becomes increasingly clear that understanding the principles of adsorption will play a critical role in addressing some of the most pressing challenges in science and technology today.
在化学和材料科学领域,术语adsorbable指的是一种物质通过吸附过程粘附到表面的能力。这一现象与吸收不同,后者是指一种物质被另一种材料的整体吸收。理解材料为何具有adsorbable特性在多个应用中至关重要,包括环境科学、制药和工业过程。例如,在水处理设施中,某些污染物可以通过使用adsorbable材料,如活性炭,有效地从水中去除。活性炭具有大表面积和多孔结构,能够通过吸附捕获水中的杂质。当水流过活性炭柱时,有害物质会附着在其表面,从而显著改善水的质量。这一应用展示了adsorbable材料在确保安全饮用水方面的重要性。此外,在制药行业,adsorbable化合物的概念对于药物传递系统至关重要。许多药物被设计为可adsorbable在特定载体上,以便于它们在体内的运输。例如,能够adsorbable的纳米颗粒可以被工程化以附着于靶细胞,从而提高治疗效果,同时减少副作用。这种靶向方法不仅增强了药物的治疗效果,还突显了理解吸附特性在药物配方中的重要性。此外,adsorbable材料的作用扩展到环境修复。重金属和有机污染物等污染物可以通过土壤和水体中的adsorbable材料捕获。例如,生物炭,一种由生物质生产的木炭,已被发现对各种污染物具有很高的adsorbable性。它在土壤中的使用不仅改善了土壤健康,还有助于固定有害物质,展示了在生态恢复工作中利用adsorbable材料的双重好处。对adsorbable材料的研究也为技术创新开辟了新的途径。例如,研究人员正在探索如何创建新的adsorbable涂层,可以捕获空气中的污染物甚至病毒。这些进展可能会显著改善空气质量和公共健康。adsorbable材料的多功能性使其成为多个学科持续研究和发展的重点。总之,术语adsorbable概括了物质与表面之间相互作用的基本概念。从增强水净化过程到革命性药物传递系统,再到促进环境可持续性,adsorbable材料的影响深远。随着我们继续探索这些材料的潜力,越来越明显的是,理解吸附原理将在解决当今科学和技术面临的一些最紧迫挑战中发挥关键作用。
