photolytic
简明释义
英[ˌfoʊtəˈlɪtɪk]美[ˌfoʊtəˈlɪtɪk]
adj. 光解的
英英释义
Relating to or caused by the action of light, especially in breaking down chemical compounds. | 与光的作用有关或由其引起,特别是指分解化合物的过程。 |
单词用法
同义词
| 光诱导的 | Photoinduced reactions are essential in many biological processes. | 光诱导反应在许多生物过程中是必不可少的。 | |
| 光化学的 | Photochemical changes occur when light interacts with matter. | 当光与物质相互作用时,会发生光化学变化。 |
反义词
| 热解的 | 热解反应发生在高温下。 | ||
| 化学解的 | Chemolytic processes involve chemical breakdown without light. | 化学解过程在没有光的情况下进行。 |
例句
1.In order to repair the clear defects of photomask, photolytic LCVD process is required to initiate the chemical reactions.
为了对透明光掩模亮场区域进行修补,需要光化学解离过程诱导反应发生;
2.Previous studies focus on the photodegradation of POP in aqueous phase and in atmosphere. The photolytic behavior of POP at the interfacial environment is investigated in this study.
前人对于POP的光化学行为研究主要集中于水相和大气相中,本研究则主要研究POP在环境界面上的光化学行为。
3.A set of high explosive pumped photolytic iodine laser system was built and a steady laser output of approximate 100 J was obtained in experiments.
成功研制了高能炸药抽运光解碘激光器系统,实现了爆炸激光器装置的稳定激光输出,并获得了近百焦耳的激光输出能量。
4.Results indicate that the distribution of photolytic products strongly depends on the environmental medium.
实验结果表明,光解产物的分布受环境和介质的强烈影响。
5.The photolytic reaction might be a step reaction.
光促反应为分步反应。
6.Previous studies focus on the photodegradation of POP in aqueous phase and in atmosphere. The photolytic behavior of POP at the interfacial environment is investigated in this study.
前人对于POP的光化学行为研究主要集中于水相和大气相中,本研究则主要研究POP在环境界面上的光化学行为。
7.The study focused on the photolytic 光解的 mechanisms involved in dye degradation.
该研究集中于染料降解中涉及的光解的机制。
8.In solar energy applications, photolytic 光解的 processes can enhance energy conversion efficiency.
在太阳能应用中,光解的过程可以提高能量转换效率。
9.Researchers are studying photolytic 光解的 degradation of pollutants in water.
研究人员正在研究水中污染物的光解的降解。
10.The photolytic 光解的 breakdown of organic compounds can be accelerated by UV light.
有机化合物的光解的分解可以通过紫外线加速。
11.The process of water splitting in photosynthesis is primarily a photolytic 光解的 reaction.
光合作用中水分解的过程主要是一个光解的反应。
作文
The process of photosynthesis is a remarkable example of how living organisms utilize light to create energy. At the heart of this process is the phenomenon known as photolytic, which refers to the breakdown of molecules by the action of light. In plants, this occurs when chlorophyll absorbs sunlight, leading to the splitting of water molecules into oxygen and hydrogen ions. This photolytic reaction is crucial for the production of glucose, which serves as food for the plant and, ultimately, for other organisms in the ecosystem.Understanding the role of photolytic processes extends beyond just plants; it has significant implications in various fields such as environmental science, renewable energy, and even medicine. For instance, researchers are exploring photolytic reactions to develop more efficient solar energy technologies. By mimicking the natural photolytic processes found in photosynthesis, scientists aim to create systems that can convert sunlight into usable energy with minimal waste. This could lead to breakthroughs in sustainable energy production, helping to combat climate change and reduce our reliance on fossil fuels.In addition to energy production, photolytic processes play a vital role in water purification. Certain advanced oxidation processes utilize light to initiate photolytic reactions that break down harmful contaminants in water. This technology is particularly valuable in areas where clean drinking water is scarce. By harnessing the power of light, we can effectively eliminate pollutants and ensure access to safe water for communities around the world.Moreover, the study of photolytic reactions is also relevant in the field of medicine. Researchers are investigating how light can be used to activate certain drugs that are less effective in their inactive forms. By employing photolytic techniques, it may be possible to target specific cells or tissues, thereby minimizing side effects and enhancing the efficacy of treatments. This approach holds promise for cancer therapies, where precision in drug delivery can significantly improve patient outcomes.In conclusion, the concept of photolytic reactions is integral to various scientific disciplines, from understanding fundamental biological processes to developing cutting-edge technologies. As we continue to explore the potential of photolytic mechanisms, we unlock new possibilities for sustainability, health, and overall well-being. The future of research in this area is bright, much like the light that drives these essential processes. By appreciating the significance of photolytic reactions, we can better grasp the interconnectedness of life and the environment, paving the way for innovative solutions to some of the world's most pressing challenges.
光合作用是一个令人惊叹的例子,展示了生物如何利用光来创造能量。在这个过程中,一个名为光解的现象处于核心地位,它指的是分子在光的作用下的分解。在植物中,当叶绿素吸收阳光时,就会发生这种情况,导致水分子被分裂成氧气和氢离子。这种光解反应对于葡萄糖的生成至关重要,而葡萄糖是植物的食物,最终也成为生态系统中其他生物的食物。理解光解过程的作用不仅限于植物;它在环境科学、可再生能源甚至医学等多个领域具有重要意义。例如,研究人员正在探索光解反应,以开发更高效的太阳能技术。通过模仿光合作用中的自然光解过程,科学家们旨在创建能够以最小浪费将阳光转化为可用能源的系统。这可能会导致可持续能源生产的突破,有助于应对气候变化,减少我们对化石燃料的依赖。除了能源生产之外,光解过程在水净化中也发挥着至关重要的作用。一些先进的氧化过程利用光来启动光解反应,分解水中的有害污染物。这项技术在清洁饮用水稀缺的地区尤其有价值。通过利用光的力量,我们可以有效消除污染物,确保全球社区获得安全的水源。此外,光解反应的研究在医学领域也相关。研究人员正在调查如何使用光激活某些在非活性形式下效果较差的药物。通过采用光解技术,可能可以针对特定细胞或组织,从而最小化副作用并增强治疗效果。这种方法对癌症治疗具有前景,因为药物递送的精准性可以显著改善患者的结果。总之,光解反应的概念对于多个科学学科至关重要,从理解基本的生物过程到开发尖端技术。随着我们继续探索光解机制的潜力,我们为可持续性、健康和整体福祉打开了新的可能性。该领域未来的研究前景光明,就像驱动这些基本过程的光一样。通过欣赏光解反应的重要性,我们可以更好地理解生命与环境之间的相互联系,为解决一些世界上最紧迫的挑战铺平道路。
