manganate
简明释义
n. [无化] 锰酸盐
英英释义
A salt or ester of manganic acid, containing the manganate ion (MnO4)2-, typically used in chemical reactions and as an oxidizing agent. | 锰酸的盐或酯,含有锰酸根离子(MnO4)2-,通常用于化学反应和作为氧化剂。 |
单词用法
高锰酸钾 | |
锰酸钠 | |
锰酸根离子 | |
锰酸盐溶液 | |
锰酸盐氧化 | |
锰酸盐化合物 |
同义词
| 高锰酸盐 | Potassium permanganate is commonly used as a disinfectant and antiseptic. | 高锰酸钾常用作消毒剂和防腐剂。 | |
| 氧化锰 | Manganese oxide is often used in the production of batteries and as a pigment. | 氧化锰常用于电池生产和作为颜料。 |
反义词
| 高锰酸盐 | 高锰酸钾常用作消毒剂。 | ||
| 二氧化锰 | 二氧化锰用于干电池。 |
例句
1.The potassium permanganate is one kind of important manganese compound, at present, it is mainly produced with the potassium manganate for the between product.
高锰酸钾是一种重要的锰的化合物,它的制备目前主要是用锰酸钾为中间产物来制备。
2.The produce key of the potassium permanganate industry is potassium manganate.
生产中间产物锰酸钾又是高锰酸钾工业的关键点。
3.The molybdate and manganate conversion coatings for aluminum and LY12 aluminum alloy were investigated using weight loss and electrochemical methods.
采用失重法与电化学方法研究了纯铝及LY1 2铝合金表面钼酸盐和锰酸盐的化学复合转化膜。
4.The main factors of effecting on oxidation reaction in the production of potassium manganate are discussed. The suitable indications of technology are proposed.
分析了锰酸钾生产过程中影响氧化反应的主要因素,提出了合适的生产工艺控制指标。
5.It is a common knowledge that the anode material accounts for over 40% of the total cost of lithium battery and lithium manganate is the most promising anode material.
正极材料在锂离子电池成本中约占40%以上,锰酸锂被认为是目前最具发展前景的锂离子电池的正极材料。
6.The manganate phosphating technology of camshaft is introduced.
介绍凸轮轴的磷化工艺。
7.It is a common knowledge that the anode material accounts for over 40% of the total cost of lithium battery and lithium manganate is the most promising anode material.
正极材料在锂离子电池成本中约占40%以上,锰酸锂被认为是目前最具发展前景的锂离子电池的正极材料。
8.In the laboratory, manganate solutions are often used in redox titrations.
在实验室中,锰酸盐溶液常用于氧化还原滴定。
9.To test for the purity of the sample, we added a few drops of manganate solution.
为了测试样品的纯度,我们加入了几滴锰酸盐溶液。
10.The chemist used potassium manganate to oxidize the organic compound.
化学家使用钾锰酸盐来氧化有机化合物。
11.The presence of manganate ions can indicate the quality of water.
锰酸盐离子的存在可以指示水的质量。
12.During the experiment, the manganate reacted with the reducing agent.
在实验过程中,锰酸盐与还原剂发生了反应。
作文
Manganate is a term that refers to a specific type of chemical compound containing manganese. These compounds are typically characterized by their unique properties and applications in various fields, including chemistry, environmental science, and industrial processes. The most common form of manganate is potassium manganate (KMnO4), which is widely used as an oxidizing agent in chemical reactions. Understanding the role of manganate (锰酸盐) in these processes is crucial for students and professionals alike, as it opens up a world of possibilities for practical applications.One of the key characteristics of manganate (锰酸盐) compounds is their vibrant purple color, which is not only visually striking but also indicative of their chemical properties. This color arises from the presence of manganese in a higher oxidation state, specifically +7. In this state, manganese exhibits strong oxidizing capabilities, making manganate (锰酸盐) a valuable tool in redox reactions. For instance, in organic chemistry, potassium manganate (锰酸盐) can be used to oxidize alcohols to ketones or aldehydes, showcasing its versatility in synthetic pathways.In addition to its applications in organic synthesis, manganate (锰酸盐) is also utilized in environmental science, particularly in water treatment processes. The ability of potassium manganate (锰酸盐) to oxidize organic pollutants makes it an effective agent for purifying water. By breaking down harmful substances, manganate (锰酸盐) helps to improve water quality and make it safer for consumption. This application highlights the importance of understanding chemical compounds and their interactions with the environment, as they play a significant role in maintaining ecological balance.Moreover, the study of manganate (锰酸盐) extends beyond its chemical properties; it also encompasses safety considerations. When handling manganate (锰酸盐) compounds, it is essential to follow proper safety protocols, as they can pose health risks if not managed correctly. For example, exposure to high concentrations of potassium manganate (锰酸盐) can lead to skin irritation or respiratory issues. Therefore, understanding the safe use and disposal of these compounds is vital for anyone working in laboratories or industries that utilize manganate (锰酸盐).In conclusion, manganate (锰酸盐) represents a fascinating area of study within the field of chemistry. Its unique properties, such as its strong oxidizing ability and vibrant color, make it an important compound with diverse applications. From organic synthesis to environmental remediation, the role of manganate (锰酸盐) is invaluable. As we continue to explore the potential of chemical compounds, the significance of understanding manganate (锰酸盐) cannot be overstated. By delving into its properties and applications, we can unlock new pathways for innovation and contribute to the advancement of science and technology.
