tritiate
简明释义
vt. 使氚化
第 三 人 称 单 数 t r i t i a t e s
现 在 分 词 t r i t i a t i n g
过 去 式 t r i t i a t e d
过 去 分 词 t r i t i a t e d
英英释义
将某物分成三部分。 |
单词用法
对某物质进行三重化处理 | |
对水进行三重化处理 | |
三重化化合物 | |
使用氚进行三重化 | |
在实验室条件下进行三重化 | |
为研究目的进行三重化 |
同义词
| 三角测量 | We can triangulate the data to get a better understanding of the situation. | 我们可以通过三角测量数据来更好地理解情况。 | |
| 划分 | It is important to divide the tasks evenly among all team members. | 将任务在所有团队成员之间均匀划分是很重要的。 |
反义词
| 集中 | 专注于学习是很重要的。 | ||
| 聚合 | 数据会随着时间的推移而聚合,显示出趋势。 |
例句
1.The scientist decided to tritiate the sample to study its radioactive properties.
科学家决定对样本进行氚化以研究其放射性特性。
2.To enhance the experiment, they chose to tritiate the water used in the reactions.
为了增强实验效果,他们选择对反应中使用的水进行氚化。
3.By tritiating the drugs, researchers could monitor their distribution in the body.
通过对药物进行氚化,研究人员可以监测其在体内的分布。
4.The research team needed to tritiate the organic molecules to trace their pathways.
研究小组需要对有机分子进行氚化以追踪它们的路径。
5.In nuclear medicine, doctors often tritiate compounds for better imaging results.
在核医学中,医生常常对化合物进行氚化以获得更好的成像结果。
作文
In the realm of science, particularly in chemistry and physics, the term tritiate refers to the process of incorporating tritium, a radioactive isotope of hydrogen, into a molecule. Tritium is unique due to its nuclear properties and its ability to emit beta radiation, making it a valuable tracer in various scientific applications. The process of tritiate is essential in understanding molecular structures and reactions, especially in the fields of biochemistry and pharmacology. For instance, when researchers want to study how a drug interacts with biological systems, they may tritiate the compound to track its distribution and metabolism within the body.The significance of tritiate goes beyond mere scientific curiosity; it has practical implications in the development of new pharmaceuticals and therapies. By labeling molecules with tritium, scientists can gain insights into their behavior in living organisms, leading to more effective treatments for various diseases. Moreover, the ability to tritiate compounds allows for a deeper understanding of biochemical pathways, which is crucial for advancing medical research.However, the process of tritiate is not without challenges. Tritium is a rare isotope, and its incorporation into molecules requires specialized techniques and equipment. Researchers must also consider the safety and regulatory aspects of working with radioactive materials. Despite these challenges, the benefits of tritiate far outweigh the drawbacks, as it opens up new avenues for exploration in both basic and applied sciences.In addition to its applications in medicine, tritiate is also used in environmental studies. For example, scientists can use tritiated water to trace the movement of water through ecosystems, providing insights into hydrological cycles and the impact of climate change. This application highlights the versatility of tritiate beyond traditional laboratory settings, showcasing its relevance in understanding complex environmental issues.As we continue to explore the potential of tritiate in various fields, it is important to recognize the ethical considerations surrounding the use of radioactive materials. Researchers must adhere to strict guidelines to ensure the safety of both human subjects and the environment. The responsible use of tritium in research can lead to groundbreaking discoveries while minimizing risks associated with its radioactivity.In conclusion, the term tritiate encapsulates a critical process in modern scientific research that involves the incorporation of tritium into molecules. Its applications in medicine, environmental science, and beyond demonstrate the importance of this technique in advancing our understanding of complex systems. As we move forward, the challenge will be to harness the power of tritiate responsibly and ethically, ensuring that the knowledge gained contributes positively to society and the natural world.
在科学领域,特别是在化学和物理学中,术语tritiate指的是将氚(一种氢的放射性同位素)纳入分子的过程。氚因其核特性和发出β辐射的能力而独特,使其在各种科学应用中成为有价值的示踪剂。tritiate的过程对于理解分子结构和反应至关重要,尤其是在生物化学和药理学领域。例如,当研究人员想要研究一种药物如何与生物系统相互作用时,他们可能会tritiate该化合物,以追踪其在体内的分布和代谢。tritiate的重要性不仅仅限于科学好奇心;它在新药和疗法的开发中具有实际意义。通过用氚标记分子,科学家可以深入了解它们在生物体内的行为,从而导致对各种疾病更有效的治疗。此外,能够tritiate化合物使我们能够更深入地理解生化途径,这对于推动医学研究至关重要。然而,tritiate的过程并非没有挑战。氚是一种稀有同位素,其纳入分子的过程需要专门的技术和设备。研究人员还必须考虑使用放射性材料的安全性和监管方面的问题。尽管存在这些挑战,tritiate的好处远远超过缺点,因为它为基础和应用科学的探索开辟了新的途径。除了在医学中的应用外,tritiate也用于环境研究。例如,科学家可以使用氚水来追踪水在生态系统中的运动,从而提供对水文循环和气候变化影响的见解。这一应用突显了tritiate在传统实验室环境之外的多样性,展示了其在理解复杂环境问题中的相关性。随着我们继续探索tritiate在各个领域的潜力,重要的是要认识到围绕放射性材料使用的伦理考虑。研究人员必须遵循严格的指南,以确保人类受试者和环境的安全。负责任地使用氚进行研究可以带来突破性的发现,同时最小化与其放射性相关的风险。总之,术语tritiate概括了现代科学研究中一个关键的过程,即将氚纳入分子。它在医学、环境科学等领域的应用展示了这一技术在推进我们对复杂系统理解中的重要性。随着我们向前发展,挑战将是负责任和伦理地利用tritiate的力量,确保所获得的知识对社会和自然界产生积极贡献。
