oxygenous
简明释义
adj. 含氧的;氧气的
英英释义
与氧气有关或含有氧气的。 |
单词用法
氧气化合物 | |
氧气环境 | |
氧气材料 | |
氧气氛围 |
同义词
| 充气的 | 充气水常用于鸡尾酒中。 | ||
| 富含氧的 | Oxygen-rich environments are crucial for many forms of life. | 富含氧的环境对许多生命形式至关重要。 | |
| 氧化的 | 氧化应激可能导致细胞损伤。 |
反义词
| 缺氧的 | The anoxic conditions in the lake led to a decline in fish populations. | 湖中的缺氧条件导致鱼类数量下降。 | |
| 低氧的 | 低氧环境对海洋生物可能是有害的。 |
例句
1.New method named GC-K3 group contribution method for the esxtimation of the octanol-water of oxygenous compounds is presented.
提出了估算含氧化合物的正辛醇/水分配系数的基团贡献法———GC-K3基团贡献法。
2.New method named GC-K3 group contribution method for the esxtimation of the octanol-water of oxygenous compounds is presented.
提出了估算含氧化合物的正辛醇/水分配系数的基团贡献法———GC-K3基团贡献法。
3.The effect of testing conditions on test results of acid oxygenous groups on carbon black has been studied detailedly.
详细讨论了测定条件对炭黑表面酸性含氧基团测定结果的影响。
4.The oxygenous 含氧的 atmosphere is crucial for human survival.
对人类生存至关重要的是含氧的大气。
5.The oxygenous 含氧的 layers of the atmosphere help filter harmful radiation.
含氧的大气层能够帮助过滤有害辐射。
6.Plants produce oxygenous 含氧的 compounds during photosynthesis.
植物在光合作用过程中产生含氧的化合物。
7.Certain bacteria thrive in oxygenous 含氧的 environments, breaking down organic matter.
某些细菌在含氧的环境中繁衍生息,分解有机物。
8.The oxygenous 含氧的 environment of the ocean is essential for marine life.
海洋中含氧的环境对海洋生物至关重要。
作文
The importance of oxygen in our daily lives cannot be overstated. Oxygen is essential for the survival of most living organisms on Earth. It plays a critical role in cellular respiration, which is the process by which cells convert nutrients into energy. In this context, we can refer to substances that contain or produce oxygen as oxygenous (含氧的). This term emphasizes the significance of oxygen in various biological and chemical processes. In our atmosphere, oxygen makes up about 21% of the air we breathe. This vital gas is produced primarily through photosynthesis, a process carried out by plants, algae, and some bacteria. During photosynthesis, these organisms convert carbon dioxide and sunlight into glucose and oxygen, effectively creating a life-sustaining cycle. Without oxygenous (含氧的) plants, the levels of oxygen in our atmosphere would drastically decrease, making it impossible for most life forms to survive.Moreover, the presence of oxygenous (含氧的) compounds is crucial in various environmental processes. For instance, water, which is composed of hydrogen and oxygen, is essential for all known forms of life. The interaction between oxygenous (含氧的) compounds and other elements leads to the formation of complex ecosystems. Aquatic environments, such as rivers and oceans, are rich in oxygenous (含氧的) materials that support diverse marine life.In addition to its biological significance, oxygen has numerous applications in industry and technology. For example, the production of steel requires high temperatures that are achieved through the combustion of oxygenous (含氧的) gases. Furthermore, oxygen is used in medical settings for respiratory therapy, where patients with breathing difficulties receive oxygenous (含氧的) gas to help them breathe more easily. The study of oxygenous (含氧的) compounds also extends to the field of chemistry. Many chemical reactions involve the transfer of electrons, and oxygen often plays a pivotal role in these reactions. Understanding the behavior of oxygenous (含氧的) substances allows scientists to develop new materials and technologies, including batteries and fuel cells that rely on the efficient use of oxygen.In conclusion, the concept of oxygenous (含氧的) materials is integral to understanding the interconnectedness of life, the environment, and industrial processes. Recognizing the value of oxygen not only enhances our appreciation for the natural world but also drives innovation in science and technology. As we face global challenges such as climate change and resource depletion, fostering a deeper understanding of oxygenous (含氧的) systems will be crucial for developing sustainable solutions that benefit both humanity and the planet.
氧气在我们日常生活中的重要性不容小觑。氧气是地球上大多数生物生存的必需品。它在细胞呼吸中发挥着关键作用,细胞通过这一过程将营养物质转化为能量。在这个背景下,我们可以将含有或产生氧气的物质称为oxygenous(含氧的)。这个术语强调了氧气在各种生物和化学过程中的重要性。在我们的气氛中,氧气约占我们呼吸空气的21%。这种重要的气体主要通过光合作用产生,这一过程由植物、藻类和一些细菌进行。在光合作用过程中,这些生物将二氧化碳和阳光转化为葡萄糖和氧气,有效地创造了一个维持生命的循环。如果没有oxygenous(含氧的)植物,我们大气中的氧气水平将急剧下降,使大多数生命形式无法生存。此外,oxygenous(含氧的)化合物的存在在各种环境过程中至关重要。例如,水由氢和氧组成,是所有已知生命形式的必需品。oxygenous(含氧的)化合物与其他元素的相互作用导致了复杂生态系统的形成。水域环境,如河流和海洋,富含oxygenous(含氧的)物质,支持着多样的海洋生物。除了其生物学意义外,氧气在工业和技术中也有许多应用。例如,钢铁的生产需要通过燃烧oxygenous(含氧的)气体达到高温。此外,氧气在医疗环境中用于呼吸治疗,呼吸困难的患者接受oxygenous(含氧的)气体以帮助他们更轻松地呼吸。对oxygenous(含氧的)化合物的研究还扩展到化学领域。许多化学反应涉及电子的转移,而氧气通常在这些反应中发挥关键作用。理解oxygenous(含氧的)物质的行为使科学家能够开发新材料和技术,包括依赖于高效使用氧气的电池和燃料电池。总之,oxygenous(含氧的)材料的概念对于理解生命、环境和工业过程之间的相互联系至关重要。认识到氧气的价值不仅增强了我们对自然界的欣赏,也推动了科学和技术的创新。当我们面临全球挑战,如气候变化和资源枯竭时,加深对oxygenous(含氧的)系统的理解对于开发可持续解决方案至关重要,这些解决方案将使人类和地球受益。
