vanadate
简明释义
n. 钒酸酯;[无化]钒酸盐(等于 vanadiate)
英英释义
Vanadate is a chemical compound that contains vanadium in the oxidation state of +5, typically found in the form of salts or esters. | 钒酸盐是一种化合物,含有氧化态为+5的钒,通常以盐或酯的形式存在。 |
单词用法
磷酸钠钒酸盐 | |
钾钒酸盐 | |
钒酸根离子 | |
钒酸盐溶液 | |
钒酸盐化合物 | |
钒酸盐处理 |
同义词
| 氧化钒 | 氧化钒用于化学反应中的催化剂。 | ||
| 钒酰 | Vanadyl compounds are often studied for their potential biological applications. | 钒酰化合物常被研究其潜在的生物应用。 |
反义词
| 钒 | 钒通常用于钢合金中以提高强度。 | ||
| 非钒酸盐 | Non-vanadate compounds are preferred in certain chemical applications due to their stability. | 在某些化学应用中,由于其稳定性,优选非钒酸盐化合物。 |
例句
1.The vanadium was converted into water-soluble sodium vanadate and water-insoluble calcium vanadate in roasting process.
通过氧化焙烧使钒转化为可溶性的钒酸钠与不溶性的钒酸钙。
2.Results: Sodium vanadate of certain concentrations could present proliferation inhibition effects on EC109 cells.
结果:一定浓度的钒化钠对食管癌细胞系ec109有生长抑制作用。
3.A sulfur reduction catalyst useful to reduce the levels of sulfur in a cracked gasoline product comprises a metal vanadate compound.
适用于降低裂化石油产品中硫水平的减硫催化剂,包括金属钒酸盐化合物。
4.Methods Vanadate oxidation of serum total bilirubin, and dichloroaniline law and the law of JG improved results.
方法用钒酸氧化法测定血清总胆红素,并与二氯苯胺法和改良J - G法测定结果比较。
5.Among the large number of luminescent materials, rare-earth vanadate host luminescent materials are well known for their good chemical and thermal stability.
在众多发光材料中,以稀土钒酸盐为基质的发光材料具有良好的化学稳定性和热稳定性。
6.This article has reviewed the properties, USES and preparation approaches of bismuth vanadate pigment.
综述了钒酸铋颜料的性能、用途及其制备方法。
7.Objective To investigate the influence of physiological saline and human blood serum as the dilution medium on direct bilirubin detection with vanadate oxidation method.
目的探讨生理盐水与人血清做稀释介质对钒酸盐法测定直接胆红素的结果影响。
8.The team observed that vanadate could mimic phosphate in certain biological reactions.
团队观察到钒酸盐可以在某些生物反应中模拟磷酸盐。
9.To study the effects of vanadate, we performed a series of enzyme assays.
为了研究钒酸盐的影响,我们进行了系列酶测定。
10.The researchers added a small amount of vanadate to the solution to enhance the catalytic activity.
研究人员在溶液中加入少量的钒酸盐以增强催化活性。
11.The presence of vanadate can significantly affect the enzyme's activity in the reaction.
在反应中,钒酸盐的存在会显著影响酶的活性。
12.In biochemical studies, vanadate is often used as a phosphatase inhibitor.
在生物化学研究中,钒酸盐常用作磷酸酶抑制剂。
作文
Vanadate, a term that refers to a compound containing the element vanadium in its oxidized form, plays a significant role in various fields of science and industry. It is commonly found in the form of salts or minerals and is known for its diverse applications. Understanding the properties and uses of vanadate (钒酸盐) can provide insights into its importance in chemical reactions, catalysis, and even biological systems.One of the primary applications of vanadate (钒酸盐) is in the field of catalysis. Vanadium compounds, particularly vanadate (钒酸盐), are used as catalysts in the production of sulfuric acid, which is one of the most widely used industrial chemicals. The presence of vanadate (钒酸盐) enhances the efficiency of the catalytic process, allowing for higher yields and reduced energy consumption. This application highlights the importance of vanadate (钒酸盐) in improving industrial processes and reducing environmental impact.In addition to its industrial applications, vanadate (钒酸盐) also plays a crucial role in biological systems. Research has shown that vanadate (钒酸盐) can mimic the action of insulin, making it a subject of interest in diabetes research. Studies suggest that vanadate (钒酸盐) may help improve glucose metabolism and enhance insulin sensitivity. This potential therapeutic use opens up new avenues for treating diabetes and related metabolic disorders, showcasing the significance of vanadate (钒酸盐) in health and medicine.Moreover, vanadate (钒酸盐) is also utilized in the field of materials science. Its unique properties make it suitable for the development of advanced materials, including superconductors and phosphors. Researchers are exploring the incorporation of vanadate (钒酸盐) into various materials to enhance their performance and functionality. This aspect of vanadate (钒酸盐) demonstrates its versatility and potential for innovation in technology.Despite its many benefits, it is essential to handle vanadate (钒酸盐) with caution due to its toxicity. Prolonged exposure to vanadium compounds can pose health risks, necessitating strict safety protocols in laboratories and industrial settings. Understanding the risks associated with vanadate (钒酸盐) is crucial for ensuring the safety of workers and minimizing environmental impact.In conclusion, vanadate (钒酸盐) is a compound with significant implications in various fields, including catalysis, biology, and materials science. Its ability to enhance industrial processes, contribute to medical research, and facilitate the development of advanced materials underscores its importance. However, the potential risks associated with vanadate (钒酸盐) must be acknowledged and managed responsibly. As research continues to uncover new applications and benefits of vanadate (钒酸盐), it is clear that this compound will remain a topic of interest for scientists and industry professionals alike.
