ferrate

简明释义

英[ˈfereɪt]美[ˈferet]

n. 高铁酸盐，铁酸盐

英英释义

单词用法

同义词

反义词

例句

1.Ferrate yet to give full play to the many advantages, it is necessary to conduct in-depth systems.

高铁酸盐的许多优越性尚未充分发挥，很有必要进行深入系统的研究。

2.The paper mainly summarizes the electrochemical preparation of ferrate(VI) due to its simple process and non-pollution.

本文主要综述了高铁酸盐的电化学制备方法。

3.The reaction between ferrate and nitrobenzene followed the first-order kinetic law.

高铁酸盐与硝基苯的反应符合一级动力学规律。

4.The solution of ferrate was produced by electrolysis method in this paper, and using the agar gel as septum which was not reported.

本文采用电解法制备高铁酸盐溶液，制备过程中首次使用了琼脂凝胶作为物理隔膜，这在国内外未有文献报道。

5.Preparation of potassium ferrate and its application in water treatment are studied in this paper.

本论文主要研究了高铁酸钾的合成及其应用于水处理的效果。

6.Ferrate is green, non-pollution chemical agent and has powerful oxidization and high selectivity. From the view of protecting environment, the application of ferrate is more remarkable.

高铁酸盐是绿色、无污染化学试剂，具有强氧化性和高选择性，从环保角度出发，其用途更是引人注目。

7.With the further research of the ferrates, the application fields of ferrates, potassium ferrate as a representative, will be more extensive.

随着对高铁酸盐研究的不断深入，以高铁酸钾为代表的高铁酸盐的应用领域将更为广阔。

8.The chemical formula for potassium ferrate is K2FeO4.

钾铁酸盐的化学式为K2FeO4。

9.In wastewater treatment, ferrate can be used as an effective oxidizing agent.

在废水处理过程中，铁酸盐可以作为有效的氧化剂。

10.Researchers are studying the properties of ferrate compounds for their potential environmental applications.

研究人员正在研究铁酸盐化合物的性质，以探索其潜在的环境应用。

11.The ferrate ion can be produced through the oxidation of iron in alkaline solutions.

铁酸盐离子可以通过在碱性溶液中氧化铁来生成。

12.Adding ferrate to the reaction mixture improved the yield of the desired product.

向反应混合物中添加铁酸盐提高了所需产品的产率。

作文

The term ferrate refers to a compound that contains iron in a higher oxidation state, typically +6. In the world of chemistry, understanding such compounds is crucial for various applications, including environmental science and industrial processes. For instance, ferrate ions can be used in water treatment processes due to their strong oxidizing properties. They have the ability to oxidize contaminants and purify water, making them valuable in efforts to provide clean drinking water. In addition to their application in water treatment, ferrate compounds are also studied for their potential in advanced oxidation processes. These processes are essential in breaking down complex organic pollutants that are otherwise resistant to conventional treatments. By utilizing ferrate, researchers hope to develop more effective methods for addressing pollution and ensuring environmental sustainability. Moreover, ferrate has garnered attention in the field of catalysis. Catalysts are substances that accelerate chemical reactions without being consumed in the process. The unique properties of ferrate make it an attractive candidate for various catalytic reactions, especially those involving organic compounds. This could lead to more efficient chemical manufacturing processes, reducing waste and energy consumption. Despite its advantages, working with ferrate can pose challenges. The stability of ferrate compounds can be affected by various environmental factors, such as pH and temperature. Therefore, researchers must carefully control these conditions to maximize the efficacy of ferrate in practical applications. Additionally, the handling of ferrate requires safety precautions due to its reactive nature. In conclusion, the study of ferrate compounds opens up numerous possibilities for advancements in environmental science and industrial chemistry. As we continue to face global challenges related to pollution and resource management, understanding and utilizing ferrate could play a pivotal role in creating sustainable solutions. The exploration of this compound not only enhances our knowledge of chemistry but also contributes to the development of innovative technologies that benefit society as a whole.

“ferrate”这个术语指的是一种含有铁的化合物，其氧化态通常为+6。在化学世界中，理解这样的化合物对于各种应用至关重要，包括环境科学和工业过程。例如，ferrate离子可以用于水处理过程，因为它们具有强氧化性。它们能够氧化污染物并净化水，使其在提供清洁饮用水的努力中变得非常有价值。 除了在水处理中的应用外，ferrate化合物还被研究用于先进的氧化过程。这些过程对于分解复杂的有机污染物至关重要，而这些污染物在常规处理下往往难以降解。通过利用ferrate，研究人员希望开发出更有效的方法来应对污染问题，确保环境的可持续性。 此外，ferrate在催化领域也引起了关注。催化剂是加速化学反应而不被消耗的物质。ferrate独特的性质使其成为各种催化反应，尤其是涉及有机化合物反应的有吸引力的候选者。这可能导致更高效的化学制造过程，从而减少废物和能量消耗。 尽管有其优势，但使用ferrate也可能面临挑战。ferrate化合物的稳定性可能受到pH值和温度等各种环境因素的影响。因此，研究人员必须仔细控制这些条件，以最大限度地提高ferrate在实际应用中的有效性。此外，由于其反应性，处理ferrate时需要采取安全预防措施。 总之，对ferrate化合物的研究为环境科学和工业化学的进步开辟了许多可能性。随着我们继续面临与污染和资源管理相关的全球挑战，理解和利用ferrate可能在创造可持续解决方案方面发挥关键作用。对这一化合物的探索不仅增强了我们对化学的理解，还促进了有利于整个社会的创新技术的发展。