peroxidizing

简明释义

英[/pəˈrɒksɪdaɪzɪŋ/]美[/pəˈrɑːkəˌdaɪzɪŋ/]

v. （使）转化为过氧化物（peroxidize 的现在分词）

英英释义

单词用法

同义词

反义词

例句

1.It introduced osmosis, peroxidizing activity, physical chemistry properties, and antisepticising ability of honey. And it introduced the experimental study on honey to treat infectious wound as well.

综述了蜂蜜的渗透性作用、过氧化氢活性、理化活性、抗菌能力、治疗感染性伤口的实验研究。

2.It introduced osmosis, peroxidizing activity, physical chemistry properties, and antisepticising ability of honey. And it introduced the experimental study on honey to treat infectious wound as well.

综述了蜂蜜的渗透性作用、过氧化氢活性、理化活性、抗菌能力、治疗感染性伤口的实验研究。

3.In textile processing, peroxidizing agents are often employed to bleach fabrics.

在纺织加工中，通常使用过氧化剂来漂白织物。

4.Researchers are exploring the peroxidizing properties of certain organic compounds.

研究人员正在探索某些有机化合物的过氧化特性。

5.The peroxidizing treatment improved the effectiveness of the disinfectant.

该过氧化处理提高了消毒剂的有效性。

6.The laboratory uses a method of peroxidizing the samples to enhance the reaction rate.

实验室使用一种方法对样品进行过氧化以增强反应速率。

7.The peroxidizing process is crucial in the production of certain pharmaceuticals.

在某些药品的生产中，过氧化过程至关重要。

作文

The chemical world is full of fascinating reactions and processes that play a crucial role in our daily lives. One such process is the act of peroxidizing, which involves the introduction of peroxides into a substance. This process can lead to various outcomes, depending on the context in which it occurs. In this essay, I will explore the significance of peroxidizing in both industrial applications and environmental contexts, highlighting its benefits and potential risks.To begin with, peroxidizing is often utilized in the field of chemistry for the purpose of synthesizing new compounds. Peroxides are known for their ability to oxidize other substances, which makes them valuable in the production of polymers, bleaches, and disinfectants. For instance, in the textile industry, peroxidizing agents are used to bleach fabrics, providing a brighter and more uniform appearance. Similarly, in the realm of pharmaceuticals, peroxidizing reactions can help in the synthesis of active ingredients that are essential for medication.Moreover, peroxidizing plays a significant role in environmental science. The presence of peroxides in the atmosphere can lead to the breakdown of pollutants, contributing to cleaner air. For example, certain natural processes, such as the reaction of sunlight with oxygen, result in the formation of peroxides, which can then react with harmful substances like sulfur dioxide and nitrogen oxides, effectively neutralizing their impact. This natural peroxidizing process is crucial for maintaining air quality and mitigating the effects of pollution.However, while peroxidizing has many beneficial applications, it is not without its risks. The use of peroxides must be carefully managed, as they can be highly reactive and potentially hazardous. In industrial settings, improper handling of peroxidizing agents can lead to dangerous situations, including explosions or toxic releases. Therefore, safety protocols and regulations are essential to ensure that the benefits of peroxidizing are realized without compromising human health or the environment.In addition to industrial and environmental implications, peroxidizing also has relevance in biological systems. For example, in living organisms, peroxides are produced as byproducts of metabolic processes. While they play a role in signaling pathways and immune responses, excessive accumulation of peroxides can lead to oxidative stress, damaging cells and tissues. This highlights the importance of maintaining a balance in peroxidizing processes within biological systems, as both deficiency and excess can have detrimental effects.In conclusion, the process of peroxidizing is a double-edged sword, offering both opportunities and challenges. Its applications in industry and environmental science demonstrate its potential to contribute positively to society. However, the risks associated with peroxidizing agents necessitate careful management and regulation. As we continue to explore the complexities of chemical reactions, understanding the role of peroxidizing will be essential for harnessing its benefits while minimizing its dangers. Ultimately, the study of peroxidizing processes not only enriches our knowledge of chemistry but also underscores the intricate connections between human activities and the natural world.

化学世界充满了迷人的反应和过程，这些过程在我们的日常生活中起着至关重要的作用。其中一个过程是过氧化，它涉及将过氧化物引入物质中。这个过程可以导致各种结果，具体取决于发生的上下文。在这篇文章中，我将探讨过氧化在工业应用和环境背景中的重要性，突出其好处和潜在风险。首先，过氧化通常用于化学领域，以合成新化合物。过氧化物因其氧化其他物质的能力而被广泛使用，这使它们在聚合物、漂白剂和消毒剂的生产中具有重要价值。例如，在纺织工业中，过氧化剂用于漂白面料，使其外观更加明亮和均匀。同样，在制药领域，过氧化反应可以帮助合成对药物至关重要的活性成分。此外，过氧化在环境科学中也发挥着重要作用。大气中存在的过氧化物可以促进污染物的降解，有助于清洁空气。例如，某些自然过程，如阳光与氧气的反应，会产生过氧化物，然后这些过氧化物可以与有害物质如二氧化硫和氮氧化物反应，有效中和它们的影响。这种自然的过氧化过程对于维持空气质量和减轻污染影响至关重要。然而，尽管过氧化有许多有益的应用，但它并非没有风险。过氧化物的使用必须谨慎管理，因为它们可能高度反应并且潜在危险。在工业环境中，不当处理过氧化剂可能导致危险情况，包括爆炸或有毒释放。因此，安全协议和法规对于确保实现过氧化的好处而不危害人类健康或环境至关重要。除了工业和环境影响外，过氧化在生物系统中也具有相关性。例如，在生物体内，过氧化物作为代谢过程的副产品产生。虽然它们在信号通路和免疫反应中发挥作用，但过量积累的过氧化物可能导致氧化应激，损害细胞和组织。这突显了在生物系统中保持过氧化过程平衡的重要性，因为缺乏和过量都可能产生不利影响。总之，过氧化过程是一把双刃剑，既提供机会，也带来挑战。它在工业和环境科学中的应用展示了其对社会的积极贡献潜力。然而，与过氧化剂相关的风险需要谨慎管理和监管。随着我们继续探索化学反应的复杂性，理解过氧化的角色对于利用其好处、最小化其危险将是至关重要的。最终，研究过氧化过程不仅丰富了我们对化学的认识，还强调了人类活动与自然世界之间的复杂联系。