nitrogen peroxide

简明释义

过氧化氮

英英释义

例句

1.The hair stylist applied nitrogen peroxide to lighten the hair color.

发型师涂抹了氮氧化物以淡化发色。

2.Many households use nitrogen peroxide for cleaning and whitening laundry.

许多家庭使用氮氧化物来清洁和漂白衣物。

3.Before starting the experiment, we need to prepare a solution with nitrogen peroxide.

在开始实验之前，我们需要准备一种含有氮氧化物的溶液。

4.The doctor recommended using nitrogen peroxide as a disinfectant for minor cuts.

医生建议使用氮氧化物作为小伤口的消毒剂。

5.In laboratories, nitrogen peroxide is often used as an oxidizing agent.

在实验室中，氮氧化物通常用作氧化剂。

作文

Nitrogen peroxide, represented chemically as N2O4, is a fascinating compound that plays a significant role in various chemical processes. It is often used as an oxidizing agent in rocket propellants and other industrial applications. Understanding the properties and applications of nitrogen peroxide (氮氧化物) can provide valuable insights into its importance in both scientific research and practical uses.One of the most notable characteristics of nitrogen peroxide (氮氧化物) is its ability to act as a powerful oxidizer. This property makes it particularly useful in the aerospace industry, where it is employed in propulsion systems. Rockets require substances that can produce a large amount of energy in a short time, and nitrogen peroxide (氮氧化物) fits this requirement perfectly. When it decomposes, it releases oxygen, which helps fuel combustion and propel the rocket into space.In addition to its use in rocket propulsion, nitrogen peroxide (氮氧化物) is also instrumental in the production of nitric acid, a key ingredient in fertilizers and explosives. The synthesis of nitric acid involves the oxidation of ammonia, where nitrogen peroxide (氮氧化物) acts as a catalyst. This reaction highlights how important nitrogen peroxide (氮氧化物) is in the chemical industry, as it facilitates the creation of substances that are vital for agriculture and construction.Moreover, nitrogen peroxide (氮氧化物) has been studied for its potential environmental impacts. It can be produced through various atmospheric reactions, contributing to air pollution and the formation of smog. Understanding how nitrogen peroxide (氮氧化物) interacts with other chemicals in the atmosphere is crucial for developing strategies to mitigate its effects on air quality. Researchers are continuously exploring ways to reduce emissions of nitrogen oxides, including nitrogen peroxide (氮氧化物), from vehicles and industrial processes.The safety considerations surrounding nitrogen peroxide (氮氧化物) are also paramount. As a reactive substance, it can be hazardous if not handled properly. When exposed to heat or certain chemicals, nitrogen peroxide (氮氧化物) can decompose explosively. Therefore, strict safety protocols are necessary when working with this compound in laboratories or industrial settings. Proper storage and handling procedures must be established to prevent accidents and ensure the safety of personnel.In conclusion, nitrogen peroxide (氮氧化物) is a compound with diverse applications and significant implications for both industry and the environment. Its role as an oxidizer in rocket propulsion and its importance in the production of nitric acid demonstrate its value in chemical processes. However, the environmental impact and safety concerns associated with nitrogen peroxide (氮氧化物) highlight the need for responsible management and research. As we continue to explore the capabilities and challenges of this compound, we gain a deeper understanding of its place in modern science and industry.

氮氧化物（化学式为N2O4）是一种迷人的化合物，在各种化学过程中发挥着重要作用。它通常用作火箭推进剂和其他工业应用中的氧化剂。理解氮氧化物（氮氧化物）的性质和应用可以为我们提供有关其在科学研究和实际用途中的重要性的宝贵见解。氮氧化物（氮氧化物）最显著的特征之一是其作为强氧化剂的能力。这一特性使其在航空航天工业中尤为有用，在那里它被用于推进系统。火箭需要能够在短时间内产生大量能量的物质，而氮氧化物（氮氧化物）完全符合这一要求。当它分解时，会释放出氧气，从而帮助燃料燃烧并将火箭推进到太空。除了在火箭推进中的应用外，氮氧化物（氮氧化物）在硝酸的生产中也起着重要作用，硝酸是肥料和炸药的关键成分。硝酸的合成涉及氨的氧化，其中氮氧化物（氮氧化物）作为催化剂。这一反应突显了氮氧化物（氮氧化物）在化学工业中的重要性，因为它促进了对农业和建筑至关重要的物质的创造。此外，氮氧化物（氮氧化物）还被研究其潜在的环境影响。它可以通过各种大气反应产生，导致空气污染和雾霾的形成。了解氮氧化物（氮氧化物）与大气中其他化学物质的相互作用对于制定减轻其对空气质量影响的策略至关重要。研究人员正在不断探索减少来自车辆和工业过程的氮氧化物（包括氮氧化物（氮氧化物））排放的方法。关于氮氧化物（氮氧化物）的安全考虑也是至关重要的。作为一种反应性物质，如果处理不当可能会造成危险。当暴露于热量或某些化学物质时，氮氧化物（氮氧化物）可能会发生爆炸性分解。因此，在实验室或工业环境中处理这种化合物时，必须遵循严格的安全协议。必须建立适当的存储和处理程序，以防止事故并确保人员的安全。总之，氮氧化物（氮氧化物）是一种具有多种应用和对行业及环境具有重要影响的化合物。它作为火箭推进中的氧化剂以及在硝酸生产中的重要性展示了它在化学过程中的价值。然而，与氮氧化物（氮氧化物）相关的环境影响和安全问题突显了负责任管理和研究的必要性。随着我们继续探索这种化合物的能力和挑战，我们对其在现代科学和工业中的地位有了更深入的理解。