hexahydrate

简明释义

英[ˌheksəˈhaɪdreɪt]美[ˌheksəˈhaɪdreɪt]

n. 六水合物

英英释义

单词用法

同义词

反义词

例句

1.Compared the catalytic activity of ferric chloride hexahydrate, stannic chloride pentahydrate and sodium bisulfate monohydrate for synthesis of nerolin bromelia.

比较了六水三氯化铁、五水四氯化锡和一水硫酸氢钠催化合成橙花素的催化活性。

2.The nucleator of barium hydroxide and its different content for the inorganic phase change material calcium chloride hexahydrate have been studied in this paper.

本文着重研究了以氢氧化钡为成核剂和不同用量的无机相变材料六水氯化钙。

3.Cobalt(II) nitrate hexahydrate;

六水合硝酸钴（II）；

4.Aluminium chloride hexahydrate; Aluminium chloride hydrate;

氯化铝六水合物；

5.Cyclohexyl acetate was synthesized from acetic acid and cyclohexanol catalyzed by aluminum chloride hexahydrate.

以乙酸和环己醇为原料，六水合三氯化铝为催化剂催化合成了乙酸环己酯。

6.The nucleator of barium hydroxide and its different content for the inorganic phase change material calcium chloride hexahydrate have been studied in this paper.

本文着重研究了以氢氧化钡为成核剂和不同用量的无机相变材料六水氯化钙。

7.The chemical compound is a common form of magnesium sulfate known as hexahydrate.

这种化合物是常见的硫酸镁形式，称为六水合物。

8.In laboratory experiments, we often use hexahydrate forms of salts for accurate measurements.

在实验室实验中，我们经常使用盐的六水合物形式以确保准确测量。

9.For many applications, the stability of a hexahydrate form is preferable to its anhydrous counterpart.

对于许多应用来说，六水合物形式的稳定性优于无水形式。

10.When dissolved in water, the hexahydrate releases water molecules back into the solution.

当溶解在水中时，六水合物会将水分子释放回溶液中。

11.The hexahydrate of copper sulfate is easily identified by its blue color.

硫酸铜的六水合物因其蓝色而易于识别。

作文

In the world of chemistry, various compounds exhibit unique properties that make them essential in different applications. One such compound is called a hexahydrate, which refers to a specific type of hydrate. A hydrate is a compound that contains water molecules within its crystalline structure. The prefix 'hexa-' indicates that there are six water molecules associated with each formula unit of the compound. This means that for every molecule of the anhydrous substance, there are six molecules of water bound to it. Understanding the significance of hexahydrate can provide insights into its practical applications and importance in various fields.For instance, one of the most common examples of a hexahydrate is magnesium sulfate, which is often encountered in its hydrated form as Epsom salt. The chemical formula for this compound is MgSO4·6H2O, indicating that each formula unit of magnesium sulfate is accompanied by six water molecules. Epsom salt is widely used in agriculture to enhance soil quality and promote plant growth, demonstrating the importance of hexahydrate forms in enhancing agricultural productivity.Moreover, hexahydrate compounds are not limited to agricultural applications. They also play a vital role in pharmaceuticals. Many drugs are formulated as hydrates to improve their solubility and bioavailability. For example, certain antibiotics are produced in a hexahydrate form to ensure optimal absorption in the body. This characteristic allows for more effective treatment regimens, showcasing how understanding hydrates can lead to advancements in medicine.The study of hexahydrate compounds extends beyond their applications; it also involves understanding their properties and behaviors under various conditions. When heated, many hydrates, including hexahydrate forms, will lose their water content, a process known as dehydration. This transformation can affect the compound's stability and reactivity. Therefore, scientists must carefully control the conditions under which these compounds are stored and handled to prevent unwanted changes.Furthermore, the ability to manipulate hydrates, particularly hexahydrate structures, opens doors to innovative materials science. Researchers are exploring the use of hydrated compounds in creating new materials with tailored properties. For example, the incorporation of hexahydrate forms in the development of advanced ceramics and composites can enhance their mechanical strength and thermal stability. This intersection of chemistry and materials science highlights the versatility of hexahydrate compounds in modern technology.In conclusion, the term hexahydrate signifies more than just a chemical classification; it embodies a range of applications and implications across various fields. From agriculture to pharmaceuticals and materials science, the presence of six water molecules in these compounds plays a crucial role in their functionality and effectiveness. As research continues to uncover the complexities of hydrates, the importance of hexahydrate will undoubtedly be further recognized, leading to new innovations and advancements in science and industry.

在化学世界中，各种化合物展现出独特的性质，使其在不同的应用中至关重要。其中一种化合物被称为六水合物，指的是一种特定类型的水合物。水合物是指在其晶体结构中含有水分子的化合物。前缀“hexa-”表示每个化合物的公式单位与六个水分子相关联。这意味着每一个无水物质的分子都有六个水分子与之结合。理解六水合物的意义可以提供对其实际应用和在各个领域的重要性的洞察。例如，最常见的六水合物之一是硫酸镁，它通常以其水合形式出现，被称为泻盐。该化合物的化学式为MgSO4·6H2O，表明每个硫酸镁的公式单位都伴随着六个水分子。泻盐广泛用于农业，以改善土壤质量并促进植物生长，展示了六水合物形式在增强农业生产力方面的重要性。此外，六水合物化合物不仅限于农业应用。它们在制药中也发挥着重要作用。许多药物以水合物的形式配制，以改善其溶解度和生物利用度。例如，某些抗生素以六水合物形式生产，以确保在体内的最佳吸收。这一特性使得治疗方案更加有效，展示了理解水合物如何推动医学进步。对六水合物化合物的研究不仅涉及其应用，还包括理解其在各种条件下的性质和行为。当加热时，许多水合物，包括六水合物形式，会失去其水分，这一过程称为脱水。这一转变会影响化合物的稳定性和反应性。因此，科学家必须仔细控制这些化合物的储存和处理条件，以防止不必要的变化。此外，操纵水合物，特别是六水合物结构的能力，为创新材料科学打开了大门。研究人员正在探索在开发新材料时使用水合化合物的可能性，以获得定制的特性。例如，将六水合物形式纳入先进陶瓷和复合材料的开发中，可以增强其机械强度和热稳定性。这种化学与材料科学的交叉点突显了六水合物化合物在现代技术中的多样性。总之，术语六水合物不仅仅意味着化学分类；它还体现了在各个领域中的一系列应用和影响。从农业到制药再到材料科学，这些化合物中六个水分子的存在在其功能性和有效性中发挥着至关重要的作用。随着研究不断揭示水合物的复杂性，六水合物的重要性无疑会进一步得到认可，从而导致科学和工业中的新创新和进步。