pyrophosphoric
简明释义
英[/ˌpaɪrəʊˈfɒsfərɪk/]美[/ˌpaɪrəˈfɑsfɔrɪk/]
焦磷的
英英释义
Relating to or denoting a type of phosphoric acid containing two phosphate groups. | 与一种含有两个磷酸根的磷酸类型相关或表示。 |
单词用法
焦磷酸合成 | |
焦磷酸酯 | |
焦磷酸酐 | |
用于焦磷酸过程 | |
以焦磷酸特性为特征 |
同义词
二磷酸的 | Pyrophosphoric acid is used in various biochemical applications. | 焦磷酸用于各种生化应用。 | |
焦磷酸盐 | 二磷酸通常在肥料中发现。 |
反义词
磷酸的 | 磷酸通常用于肥料中。 | ||
正磷酸的 | Orthophosphoric acid is a key ingredient in many cleaning products. | 正磷酸是许多清洁产品中的重要成分。 |
例句
1.The intumescent flame retardant melamine pyrophosphate was prepared by melamine and pyrophosphoric acid in solvent.
通过焦磷酸与三聚氰胺在溶剂中直接作用合成了膨胀型阻燃剂焦磷酸三聚氰胺。
2.The intumescent flame retardant melamine pyrophosphate was prepared by melamine and pyrophosphoric acid in solvent.
通过焦磷酸与三聚氰胺在溶剂中直接作用合成了膨胀型阻燃剂焦磷酸三聚氰胺。
3.The chemical formula for pyrophosphoric acid is H4P2O7, which is used in various industrial applications.
焦磷酸的化学式是H4P2O7,广泛用于各种工业应用。
4.In biochemistry, pyrophosphoric compounds play a crucial role in energy transfer processes.
在生物化学中,焦磷酸化合物在能量转移过程中起着至关重要的作用。
5.The synthesis of certain enzymes requires the presence of pyrophosphoric acid as a cofactor.
某些酶的合成需要焦磷酸作为辅因子。
6.Researchers are investigating the potential use of pyrophosphoric acid in drug delivery systems.
研究人员正在调查焦磷酸在药物递送系统中的潜在用途。
7.The presence of pyrophosphoric acid can enhance the solubility of certain minerals in fertilizers.
焦磷酸的存在可以增强某些矿物在肥料中的溶解度。
作文
In the realm of chemistry, the study of various compounds and their properties is crucial for understanding the interactions that occur in both nature and industry. One such compound that often piques the interest of chemists is pyrophosphoric acid. This fascinating substance is a type of phosphorus acid that contains two phosphate groups, making it an important player in biochemical processes. The significance of pyrophosphoric acid extends far beyond its basic chemical structure; it plays a vital role in energy transfer within cells, particularly in the form of adenosine triphosphate (ATP). ATP, which is often referred to as the energy currency of the cell, relies on the presence of pyrophosphoric bonds to store and release energy efficiently. Understanding pyrophosphoric acid also opens the door to exploring its applications in various fields. For instance, in agriculture, pyrophosphoric acid can be used to enhance soil fertility. The compound acts as a fertilizer that provides essential nutrients to plants, promoting healthy growth and development. Furthermore, the use of pyrophosphoric acid in the synthesis of phosphoric acid derivatives has significant implications for the production of detergents, food additives, and pharmaceuticals. Moreover, the unique properties of pyrophosphoric acid make it a subject of interest in the field of materials science. Researchers are investigating how this compound can be utilized in the development of new materials with enhanced performance characteristics. For example, pyrophosphoric acid could potentially be used in creating advanced ceramics or composites that exhibit improved strength and durability. In addition to its practical applications, the study of pyrophosphoric acid also contributes to our broader understanding of phosphorus chemistry. Phosphorus is an essential element for life, and its compounds are involved in many biological processes. By examining the behavior and reactivity of pyrophosphoric acid, scientists can gain insights into how phosphorus interacts with other elements and compounds, which is crucial for developing new technologies and improving existing ones. In conclusion, pyrophosphoric acid is more than just a chemical compound; it is a key player in various scientific and industrial applications. Its role in energy transfer, agriculture, and materials science highlights the importance of understanding such compounds in depth. As research continues to unfold, the potential of pyrophosphoric acid to contribute to advancements in technology and sustainability becomes increasingly apparent. The exploration of this compound not only enriches our knowledge of chemistry but also paves the way for innovative solutions to some of the pressing challenges faced by society today.
在化学领域,各种化合物及其性质的研究对于理解自然和工业中发生的相互作用至关重要。一个常常引起化学家兴趣的化合物是焦磷酸。这种迷人的物质是一种含有两个磷酸根的磷酸,因而在生化过程中扮演着重要角色。焦磷酸的意义远不止于其基本化学结构;它在细胞内的能量转移中发挥着至关重要的作用,特别是在腺苷三磷酸(ATP)的形式中。ATP通常被称为细胞的能量货币,它依赖于焦磷酸键的存在来有效地储存和释放能量。 理解焦磷酸也为探索其在各个领域的应用打开了大门。例如,在农业中,焦磷酸可用于增强土壤肥力。这种化合物作为一种肥料,为植物提供必需的营养,促进健康的生长和发育。此外,焦磷酸在磷酸衍生物合成中的使用对清洁剂、食品添加剂和药品的生产具有重要意义。 此外,焦磷酸的独特性质使其成为材料科学领域的研究对象。研究人员正在调查这种化合物如何用于开发具有更高性能特征的新材料。例如,焦磷酸可能会用于制造具有更强强度和耐久性的先进陶瓷或复合材料。 除了其实际应用外,焦磷酸的研究还有助于我们更广泛地理解磷化学。磷是生命所必需的元素,其化合物参与许多生物过程。通过研究焦磷酸的行为和反应性,科学家可以深入了解磷如何与其他元素和化合物相互作用,这对于开发新技术和改进现有技术至关重要。 总之,焦磷酸不仅仅是一种化学化合物;它在各种科学和工业应用中都是一个关键角色。它在能量转移、农业和材料科学中的作用突显了深入理解此类化合物的重要性。随着研究的不断展开,焦磷酸在为技术和可持续发展进步做出贡献的潜力变得越来越明显。对这一化合物的探索不仅丰富了我们对化学的知识,也为社会今天面临的一些紧迫挑战提供了创新解决方案。
文章标题:pyrophosphoric的意思是什么
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