radiochemist

简明释义

英[/ˌreɪdiəʊˈkɛmɪst/]美[/ˌreɪdiəˈkɛmɪst/]

n. 放射化学家（radiochemistry 的变形）

英英释义

单词用法

同义词

反义词

例句

1.The Specialty Synthesis Group is seeking a Synthetic Radiochemist to be responsible for the carbon-14 radiolabeled chemical synthesis, purification and analysis.

现其特殊品合成部门诚寻一位放射合成化学研究人员，以从事碳-14 标志化合物的合成、纯化及分析工作。

2.The Specialty Synthesis Group is seeking a Synthetic Radiochemist to be responsible for the carbon-14 radiolabeled chemical synthesis, purification and analysis.

现其特殊品合成部门诚寻一位放射合成化学研究人员，以从事碳-14 标志化合物的合成、纯化及分析工作。

3.The work of a radiochemist 放射化学家 involves studying the chemical properties of radioactive materials.

一名放射化学家的工作涉及研究放射性材料的化学性质。

4.A radiochemist 放射化学家 can help in developing new medical imaging techniques.

一位放射化学家可以帮助开发新的医学成像技术。

5.In nuclear medicine, the role of the radiochemist 放射化学家 is crucial for producing radiopharmaceuticals.

在核医学中，放射化学家的角色对生产放射药物至关重要。

6.The radiochemist 放射化学家 analyzed the samples for their radioactive isotopes.

这位放射化学家分析了样本中的放射性同位素。

7.A career as a radiochemist 放射化学家 often requires advanced degrees in chemistry and physics.

作为一名放射化学家的职业通常需要在化学和物理方面的高级学位。

作文

The field of science is vast and ever-evolving, encompassing various disciplines that contribute to our understanding of the world. One such discipline is radiochemistry, which combines principles of chemistry and nuclear physics. A professional who specializes in this area is known as a radiochemist. A radiochemist (放射化学家) focuses on the study of radioactive materials and their chemical properties, interactions, and applications. This unique field plays a crucial role in various industries, including medicine, environmental science, and energy production. Radiochemists are instrumental in the development of radioisotopes used in medical imaging and cancer treatment. For instance, they work on creating isotopes that can be injected into patients to help doctors visualize internal organs through techniques like PET scans. The work of a radiochemist (放射化学家) ensures that these isotopes are produced safely and efficiently, adhering to strict regulatory standards to protect both patients and healthcare workers. In addition to their contributions to medicine, radiochemists (放射化学家) also play a vital role in environmental monitoring. They study the behavior of radioactive substances in the environment, helping to assess the impact of nuclear waste and contamination. By understanding how these materials interact with ecosystems, radiochemists (放射化学家) can develop strategies for remediation and pollution control, ultimately safeguarding public health and the environment. Energy production is another significant area where radiochemists (放射化学家) make their mark. They are involved in the research and development of nuclear reactors, ensuring that the fuel used is processed correctly and that the byproducts are managed safely. Their expertise contributes to the advancement of nuclear technology, which provides a substantial portion of the world's energy needs while minimizing carbon emissions. To become a successful radiochemist (放射化学家), one must possess a strong foundation in chemistry and physics, often requiring advanced degrees in these fields. The path to becoming a radiochemist (放射化学家) typically involves rigorous academic training, hands-on laboratory experience, and a commitment to ongoing research. Collaboration with other scientists and professionals is also essential, as the work often intersects with various disciplines, including biology, engineering, and environmental science. As we look towards the future, the role of radiochemists (放射化学家) will continue to expand. With advancements in technology and a growing need for sustainable energy sources, the expertise of radiochemists (放射化学家) will be critical in addressing global challenges. Their work not only enhances our understanding of radioactive materials but also paves the way for innovative solutions that benefit society as a whole. In conclusion, the profession of a radiochemist (放射化学家) is integral to many aspects of modern science and technology. From improving healthcare outcomes to protecting the environment and advancing energy solutions, radiochemists (放射化学家) are at the forefront of research that impacts our daily lives. As we continue to explore the complexities of the atomic world, the contributions of radiochemists (放射化学家) will undoubtedly shape a safer and more sustainable future.

科学领域广阔且不断发展，涵盖了多种学科，它们共同促进我们对世界的理解。其中一个学科是放射化学，它结合了化学和核物理学的原理。专门从事这一领域的专业人士被称为放射化学家。放射化学家（radiochemist）专注于研究放射性材料及其化学性质、相互作用和应用。这个独特的领域在医学、环境科学和能源生产等多个行业中发挥着至关重要的作用。 放射化学家在医疗成像和癌症治疗中使用的放射性同位素的开发中发挥着重要作用。例如，他们致力于创造可以注入患者体内的同位素，以帮助医生通过PET扫描等技术可视化内部器官。放射化学家（radiochemist）的工作确保这些同位素安全高效地生产，遵循严格的监管标准，以保护患者和医疗工作者的安全。 除了对医学的贡献之外，放射化学家（radiochemist）还在环境监测中发挥着至关重要的作用。他们研究放射性物质在环境中的行为，帮助评估核废料和污染的影响。通过了解这些材料与生态系统的相互作用，放射化学家（radiochemist）可以制定修复和污染控制的策略，最终保护公众健康和环境。 能源生产是另一个放射化学家（radiochemist）施展才华的重要领域。他们参与核反应堆的研究和开发，确保所用燃料得到正确处理，并且副产品得到安全管理。他们的专业知识有助于推动核技术的发展，核技术为满足全球能源需求提供了重要支持，同时减少了碳排放。 要成为一名成功的放射化学家（radiochemist），必须具备扎实的化学和物理基础，通常需要在这些领域获得高级学位。成为放射化学家（radiochemist）的道路通常涉及严格的学术培训、实践实验室经验以及对持续研究的承诺。与其他科学家和专业人士的合作也是必不可少的，因为这项工作通常与生物学、工程学和环境科学等多个学科交叉。 展望未来，放射化学家（radiochemist）的角色将继续扩大。随着技术的进步和对可持续能源来源的需求日益增长，放射化学家（radiochemist）的专业知识在应对全球挑战中将至关重要。他们的工作不仅增强了我们对放射性材料的理解，而且为造福社会的创新解决方案铺平了道路。 总之，放射化学家（radiochemist）这一职业在现代科学和技术的许多方面都是不可或缺的。从改善医疗结果到保护环境，再到推动能源解决方案，放射化学家（radiochemist）处于影响我们日常生活的研究前沿。随着我们继续探索原子世界的复杂性，放射化学家（radiochemist）的贡献无疑将塑造一个更安全、更可持续的未来。