ferric
简明释义
adj. 铁的;[无化]三价铁的;含铁的
n. (Ferric)人名;(法)费里克
英英释义
Relating to or containing iron, especially in its trivalent (Fe3+) state. | 与铁有关或含有铁,特别是在其三价(Fe3+)状态下。 |
单词用法
三氧化二铁,氧化铁 | |
氯化铁(用作蚀刻画腐蚀剂) |
同义词
| 铁(III) | Ferric ions are commonly found in various biological systems. | 铁(III)离子常见于各种生物系统中。 | |
| 铁质的 | 铁质土壤富含铁元素。 |
反义词
例句
1.A cement resembling putty; made by mixing ferric oxide and boiled linseed oil; is acid resistant.
一种类似灰的胶泥,由氧化铁和煮沸的亚麻混合而成,具有抗酸性。
2.The cleaning technology of ferric scale is summarized. The defect and the cost of these cleaning technology is compared.
论述清洗行业的铁垢清洗技术,并对它们的优点、缺点及部分清洗费用进行比较。
3.In addition, various ferric ion stabilizers were evaluated and suitable ferric ion stabilizer was selected.
还评价了各种铁离子稳定剂,选出合适的铁离子稳定剂。
4.The relationship between soil texture, soil ferric oxide and soil spectral reflectance.
氧化铁与土壤质地与土壤反射率的关系。
5.The mixed waste water from beer production was pretreated by ferric sulfate-polyacrylamide flocculation method.
采用硫酸铁-聚丙烯酰胺絮凝法对啤酒厂的混合废水进行预处理。
6.At present, the making of the pad to use Add protection of nitric acid and ferric chloride solution for corrosion.
目前移印钢板的制作以使用添加保护剂的硝酸溶液和三氯化铁溶液进行腐蚀为主。
7.In the laboratory, we often use ferric chloride for various chemical reactions.
在实验室中,我们经常使用铁(III)氯化物进行各种化学反应。
8.The presence of ferric ions can indicate oxidation in the sample.
样品中铁(III)离子的存在可能表明氧化现象。
9.To test for iron, we added a few drops of ferric sulfate to the solution.
为了测试铁,我们向溶液中添加了几滴铁(III)硫酸盐。
10.The solution contains ferric ions, which are responsible for the red color.
该溶液含有铁(III)离子,导致了红色。
11.The ferric oxide in the paint gives it a rust-like appearance.
涂料中的铁(III)氧化物使其呈现出生锈的外观。
作文
In the realm of chemistry, the term ferric refers to iron in its trivalent state, which means it has a charge of +3. This is an essential concept for understanding various chemical reactions and compounds involving iron. The distinction between ferric (Fe^3+) and ferrous (Fe^2+) is crucial, as they exhibit different properties and reactivities. For instance, ferric ions are often found in nature combined with other elements, forming minerals like hematite, which is a significant source of iron ore. Furthermore, ferric compounds play a vital role in biological systems. They are involved in the transport of oxygen in the blood through hemoglobin, where iron exists in the ferric state when oxidized. This highlights the importance of understanding ferric in both environmental and biological contexts.The applications of ferric compounds extend beyond biology and geology; they are also widely used in various industrial processes. For example, ferric chloride is a common coagulant in water treatment processes, helping to remove impurities and clarify drinking water. Additionally, ferric sulfate is utilized in paper manufacturing and as a mordant in dyeing processes, showcasing its versatility across different industries.Moreover, the study of ferric compounds is crucial in the field of materials science. Researchers are continuously exploring new ways to utilize ferric oxides in the development of advanced materials, including magnetic materials and catalysts. These innovations can lead to significant advancements in technology, particularly in energy storage and conversion systems, where ferric materials can enhance efficiency and performance.In conclusion, the term ferric encapsulates a broad range of applications and implications in chemistry, biology, and industry. Understanding ferric and its properties is essential for anyone studying these fields, as it lays the groundwork for comprehending more complex concepts and processes. Whether it's in the context of natural mineral formation, biological functions, or industrial applications, ferric remains a fundamental aspect of our understanding of iron and its significance in various domains of science and technology.
在化学领域,术语ferric指的是三价铁,这意味着它的电荷为+3。这是理解涉及铁的各种化学反应和化合物的基本概念。ferric(Fe^3+)与亚铁(Fe^2+)之间的区别至关重要,因为它们表现出不同的性质和反应性。例如,ferric离子通常与其他元素结合,形成矿物,如赤铁矿,这是重要的铁矿石来源。此外,ferric化合物在生物系统中发挥着重要作用。它们参与血液中的氧气运输,通过血红蛋白,其中铁在氧化时处于ferric状态。这突显了在环境和生物背景下理解ferric的重要性。ferric化合物的应用超越了生物学和地质学;它们还广泛用于各种工业过程。例如,ferric氯化物是水处理过程中常用的混凝剂,有助于去除杂质并澄清饮用水。此外,ferric硫酸盐被用于造纸制造和染色过程中的媒染剂,展示了它在不同产业中的多功能性。此外,ferric化合物的研究在材料科学领域至关重要。研究人员不断探索利用ferric氧化物开发先进材料的新方法,包括磁性材料和催化剂。这些创新可以在技术上带来重大进展,特别是在能源存储和转换系统中,其中ferric材料可以提高效率和性能。总之,术语ferric涵盖了化学、生物和工业中广泛的应用和影响。理解ferric及其特性对于任何学习这些领域的人来说都是必不可少的,因为它为理解更复杂的概念和过程奠定了基础。无论是在自然矿物形成、生物功能还是工业应用的背景下,ferric始终是我们理解铁及其在各个科学和技术领域重要性的基本方面。
