metal oxide
简明释义
金属氧化物金属绝缘膜
英英释义
A metal oxide is a chemical compound that consists of a metal element combined with oxygen, typically exhibiting properties of both the metal and the oxide. | 金属氧化物是一种化学化合物,由金属元素与氧结合而成,通常表现出金属和氧化物的特性。 |
例句
1.The coating of metal oxide helps to protect surfaces from corrosion.
金属氧化物涂层有助于保护表面免受腐蚀。
2.In catalysis, metal oxide materials can enhance the reaction rates significantly.
在催化过程中,金属氧化物材料可以显著提高反应速率。
3.The solar cells are often made from silicon and coated with a layer of metal oxide.
太阳能电池通常由硅制成,并涂上一层金属氧化物。
4.Researchers are exploring the use of metal oxide nanoparticles for drug delivery systems.
研究人员正在探索使用金属氧化物纳米颗粒用于药物传递系统。
5.The metal oxide semiconductor is essential in the functioning of modern electronics.
在现代电子设备中,金属氧化物半导体是必不可少的。
作文
Metal oxides are compounds that consist of metal elements combined with oxygen. These compounds play a crucial role in various chemical processes and applications across multiple industries. From electronics to environmental science, the significance of metal oxide (金属氧化物) cannot be overstated. One of the most prominent uses of metal oxide (金属氧化物) is in the field of electronics. For instance, indium tin oxide (ITO) is a widely used metal oxide (金属氧化物) that serves as a transparent conductive layer in touch screens and LCD displays. Its unique properties allow it to conduct electricity while remaining transparent, making it an ideal choice for modern electronic devices. The demand for ITO and other similar metal oxides (金属氧化物) has grown significantly with the rise of smart devices, highlighting their importance in contemporary technology. In addition to electronics, metal oxides (金属氧化物) also play a vital role in catalysis. Many industrial processes rely on metal oxides (金属氧化物) to facilitate chemical reactions. For example, titanium dioxide (TiO2) is commonly used as a photocatalyst in various environmental applications, such as water purification and air cleaning. The ability of metal oxides (金属氧化物) to accelerate these reactions makes them invaluable for sustainable development and environmental protection. Another important aspect of metal oxides (金属氧化物) is their application in the field of materials science. Researchers are continually exploring new metal oxides (金属氧化物) for use in batteries, particularly lithium-ion batteries. The performance of these batteries can be significantly enhanced by incorporating specific metal oxides (金属氧化物) into their design. For instance, manganese oxide (MnO2) has been studied for its potential to improve energy storage capacity and charging rates, making it a promising candidate for future battery technologies. Furthermore, metal oxides (金属氧化物) are essential in the field of environmental remediation. Many pollutants can be effectively removed from soil and water using metal oxides (金属氧化物) as adsorbents or catalysts. Their ability to bind with harmful substances allows for cleaner environments and healthier ecosystems. This application is particularly relevant in regions affected by industrial pollution, where metal oxides (金属氧化物) can be employed to restore contaminated sites. In conclusion, the significance of metal oxides (金属氧化物) is evident across various fields, including electronics, catalysis, materials science, and environmental remediation. As we continue to advance technologically and face pressing environmental challenges, the role of metal oxides (金属氧化物) will undoubtedly become even more critical. Understanding and harnessing the unique properties of these compounds will pave the way for innovative solutions and sustainable practices in the years to come.
金属氧化物是由金属元素与氧气结合而成的化合物。这些化合物在各个行业的各种化学过程中和应用中发挥着至关重要的作用。从电子产品到环境科学,金属氧化物(metal oxide)的重要性不容小觑。在电子领域,金属氧化物(metal oxide)最显著的用途之一是作为透明导电层。例如,铟锡氧化物(ITO)是一种广泛使用的金属氧化物(metal oxide),它在触摸屏和液晶显示器中起着重要作用。其独特的性质使其能够在保持透明的同时导电,因此成为现代电子设备的理想选择。随着智能设备的兴起,对ITO及其他类似金属氧化物(metal oxide)的需求显著增长,突显了它们在当代技术中的重要性。除了电子产品,金属氧化物(metal oxide)在催化方面也发挥着重要作用。许多工业过程依赖于金属氧化物(metal oxide)来促进化学反应。例如,二氧化钛(TiO2)通常用作光催化剂,应用于水净化和空气清洁等各种环境应用。金属氧化物(metal oxide)加速这些反应的能力使其在可持续发展和环境保护中变得不可或缺。金属氧化物(metal oxide)的另一个重要方面是它们在材料科学领域的应用。研究人员不断探索新的金属氧化物(metal oxide)用于电池,特别是锂离子电池。通过将特定的金属氧化物(metal oxide)纳入设计,可以显著提高这些电池的性能。例如,锰氧化物(MnO2)因其潜力而受到研究,有望改善能量存储容量和充电速率,使其成为未来电池技术的有前途的候选者。此外,金属氧化物(metal oxide)在环境修复领域也至关重要。许多污染物可以有效地通过使用金属氧化物(metal oxide)作为吸附剂或催化剂从土壤和水中去除。它们与有害物质结合的能力使得环境更清洁、生态系统更健康。这一应用在受到工业污染影响的地区尤为相关,在这些地区,金属氧化物(metal oxide)可以被用来恢复受污染的地点。总之,金属氧化物(metal oxide)的重要性在多个领域中显而易见,包括电子产品、催化、材料科学和环境修复。随着我们技术的不断进步和面临的环境挑战日益严峻,金属氧化物(metal oxide)的作用无疑会变得更加关键。理解和利用这些化合物的独特性质将为未来的创新解决方案和可持续实践铺平道路。
相关单词
