zeolitic
简明释义
adj. 沸石的
英英释义
Relating to or resembling zeolites, which are a group of minerals with a porous structure that can exchange ions and molecules. | 与沸石相关或类似,沸石是一类具有多孔结构的矿物,可以进行离子和分子的交换。 |
单词用法
沸石吸附 | |
沸石催化 | |
沸石离子交换 | |
沸石保水 | |
天然沸石 | |
合成沸石 | |
沸石框架 | |
沸石应用 |
同义词
| 沸石 | 沸石材料常用于水净化。 | ||
| 铝硅酸盐 | Aluminosilicates are important in the production of ceramics. | 铝硅酸盐在陶瓷生产中非常重要。 |
反义词
| 非沸石的 | 非沸石材料常用于建筑中。 | ||
| 致密的 | Dense rocks do not have the same adsorption properties as zeolitic rocks. | 致密岩石没有沸石岩石相同的吸附特性。 |
例句
1.The invention provides the large aperture zeolitic adsorbent and preparing method.
本发明提供了一种大孔沸石吸附剂及其制备方法。
2.This technique could be a new route to synthesize arranged zeolitic materials without binder.
是一种无粘合剂合成分子筛规整催化剂的一个新途径。
3.This technique could be a new route to synthesize arranged zeolitic materials without binder.
是一种无粘合剂合成分子筛规整催化剂的一个新途径。
4.Many detergents contain zeolitic 沸石的 compounds to soften water.
许多洗涤剂含有zeolitic 沸石的化合物以软化水。
5.In agriculture, zeolitic 沸石的 minerals are used to improve soil fertility.
在农业中,zeolitic 沸石的矿物用于改善土壤肥力。
6.The researchers discovered that the zeolitic 沸石的 properties of the material enhanced its ability to filter water.
研究人员发现该材料的zeolitic 沸石的特性增强了其过滤水的能力。
7.The zeolitic 沸石的 structure allows it to capture and hold gases effectively.
这种zeolitic 沸石的结构使其能够有效捕获和储存气体。
8.The zeolitic 沸石的 framework is highly porous, making it ideal for gas separation.
这种zeolitic 沸石的框架具有高度的多孔性,非常适合气体分离。
作文
In the realm of materials science and chemistry, the term zeolitic refers to a specific class of minerals that are characterized by their unique porous structure. Zeolites are aluminosilicate minerals that have a framework structure composed of silicon, aluminum, and oxygen. Their ability to hold water and exchange cations makes them incredibly useful in various applications, ranging from agriculture to environmental remediation. The zeolitic properties allow these minerals to absorb and release nutrients, making them ideal for use in soil amendments and fertilizers. Additionally, their ion-exchange capabilities enable zeolites to remove toxins and heavy metals from water, thus playing a crucial role in water purification processes.One of the most fascinating aspects of zeolitic minerals is their ability to act as molecular sieves. Due to their porous nature, they can selectively adsorb certain molecules while excluding others based on size and polarity. This property is exploited in many industrial applications, such as gas separation and catalysis. For instance, in the petrochemical industry, zeolitic catalysts are employed to facilitate complex chemical reactions, enhancing the efficiency and selectivity of processes like cracking and isomerization.Moreover, the zeolitic structure is not only beneficial for industrial purposes but also has significant implications in the field of medicine. Researchers are exploring the potential of zeolites in drug delivery systems, where their porous nature can encapsulate therapeutic agents and release them in a controlled manner. This innovative approach could revolutionize how medications are administered, improving efficacy and reducing side effects.In addition to their practical applications, zeolitic minerals also offer insights into geological processes. They form through the alteration of volcanic ash and other silicate materials in the presence of alkaline waters, providing valuable information about the conditions under which they were created. Studying these minerals can help geologists understand the history of volcanic activity and the evolution of the Earth’s crust.Despite their numerous advantages, the extraction and processing of zeolitic minerals must be conducted responsibly to minimize environmental impact. Sustainable mining practices and recycling of zeolite materials are essential to ensure that we can continue to benefit from their unique properties without depleting natural resources. Furthermore, ongoing research into synthetic zeolites allows for the design of tailored materials that can meet specific needs in various industries, paving the way for innovations that could further enhance their utility.In conclusion, the term zeolitic encompasses a wide range of properties and applications that highlight the importance of these minerals in both natural and industrial contexts. From their roles in agriculture and environmental science to their potential in medicine and geology, zeolitic minerals are a testament to the intricate connections between earth sciences and human innovation. Understanding and harnessing the power of zeolitic materials will undoubtedly contribute to advancements in technology and sustainability in the years to come.
在材料科学和化学领域,术语zeolitic指的是一类特定的矿物,这些矿物的特点是它们独特的多孔结构。沸石是一种铝硅酸盐矿物,其框架结构由硅、铝和氧组成。它们能够保持水分并交换阳离子,使其在农业到环境修复等各种应用中极为有用。zeolitic特性使这些矿物能够吸收和释放养分,成为土壤改良剂和肥料的理想选择。此外,它们的离子交换能力使沸石能够去除水中的毒素和重金属,因此在水净化过程中发挥着至关重要的作用。zeolitic矿物最迷人的方面之一是它们作为分子筛的能力。由于其多孔特性,它们可以根据分子大小和极性选择性地吸附某些分子,同时排除其他分子。这一特性被广泛应用于许多工业应用中,如气体分离和催化。例如,在石油化工行业中,zeolitic催化剂被用来促进复杂的化学反应,提高裂化和异构化过程的效率和选择性。此外,zeolitic结构不仅对工业用途有利,而且在医学领域也具有重要意义。研究人员正在探索沸石在药物递送系统中的潜力,其多孔特性可以包裹治疗剂,并以可控的方式释放。这个创新的方法可能会彻底改变药物的给药方式,提高疗效并减少副作用。除了它们的实际应用,zeolitic矿物还提供了对地质过程的见解。它们是在碱性水存在下,通过火山灰和其他硅酸盐材料的变化而形成的,提供了关于它们形成条件的宝贵信息。研究这些矿物可以帮助地质学家了解火山活动的历史以及地壳的演变。尽管有众多优势,但提取和加工zeolitic矿物必须负责任地进行,以尽量减少对环境的影响。可持续的采矿实践和沸石材料的回收对于确保我们能够继续受益于其独特特性而不耗尽自然资源至关重要。此外,合成沸石的持续研究使得设计能够满足各行业特定需求的定制材料成为可能,为进一步增强其实用性的创新铺平了道路。总之,术语zeolitic涵盖了一系列广泛的特性和应用,突显了这些矿物在自然和工业背景下的重要性。从它们在农业和环境科学中的作用到它们在医学和地质学中的潜力,zeolitic矿物证明了地球科学与人类创新之间的复杂联系。理解和利用zeolitic材料的力量无疑将有助于未来技术和可持续性的进步。
