iodinate
简明释义
v. 碘化;以碘处理
第 三 人 称 单 数 i o d i n a t e s
现 在 分 词 i o d i n a t i n g
过 去 式 i o d i n a t e d
过 去 分 词 i o d i n a t e d
英英释义
To introduce iodine into a compound or substance, typically for the purpose of enhancing its properties or for use in medical applications. | 将碘引入化合物或物质中,通常是为了增强其特性或用于医学应用。 |
单词用法
对一个化合物进行碘化 | |
碘化对比剂 | |
碘化蛋白质 | |
用碘进行碘化 | |
为医学影像进行碘化 | |
有效地碘化 |
同义词
| 碘化 | The process to iodinate salt helps prevent iodine deficiency. | 对盐进行碘化的过程有助于防止碘缺乏。 | |
| 碘化 | 碘化油常用于医学成像。 | ||
| 卤化 | 卤化是许多有机反应中的关键步骤。 |
反义词
| 脱碘化 | The process of deiodination is crucial in the metabolism of thyroid hormones. | 脱碘化过程在甲状腺激素的代谢中至关重要。 | |
| 去碘化 | Certain enzymes are responsible for the deiodination of iodinated compounds. | 某些酶负责脱碘化碘化化合物。 |
例句
1.It is essential to iodinate the organic molecules in this synthesis process.
在这个合成过程中,碘化有机分子是至关重要的。
2.To prepare the sample for analysis, make sure to iodinate it properly.
为了准备样品进行分析,请确保正确地碘化它。
3.In the laboratory, we need to iodinate the compound to enhance its reactivity.
在实验室中,我们需要碘化该化合物以增强其反应性。
4.You can iodinate the solution by adding potassium iodide.
你可以通过添加碘化钾来碘化溶液。
5.The researchers decided to iodinate the protein for better imaging results.
研究人员决定对蛋白质进行碘化以获得更好的成像结果。
作文
In the field of chemistry and medicine, the term iodinate refers to the process of introducing iodine into a compound or a molecule. Iodination is an essential reaction that plays a crucial role in various applications, particularly in the synthesis of pharmaceuticals and in diagnostic imaging. The importance of iodine cannot be overstated, as it is a vital element required for the proper functioning of the thyroid gland. When we iodinate organic compounds, we often aim to enhance their biological activity or improve their imaging properties.For instance, one of the most notable applications of iodinate compounds is in the development of contrast agents used in medical imaging techniques such as X-rays and CT scans. These contrast agents help to improve the visibility of internal structures in the body, allowing for better diagnosis of various conditions. By iodinateing certain molecules, we can create more effective contrast agents that provide clearer images and aid healthcare professionals in making accurate diagnoses.Moreover, the process of iodinateing can also be found in the production of certain medications. Many drugs are designed to target specific receptors in the body, and the addition of iodine can enhance their affinity for these receptors. This is particularly important in the development of radiopharmaceuticals, which are used in nuclear medicine for both diagnosis and treatment. By iodinateing these drugs, we can ensure that they bind effectively to the intended targets, thereby improving their therapeutic efficacy.In addition to its medicinal applications, iodinate compounds also have significant roles in industrial processes. For example, iodine is often used in the synthesis of polymers and other materials. The ability to iodinate these substances can lead to improved properties, such as increased strength or resistance to degradation. This versatility makes iodine a valuable component in various manufacturing sectors.However, the process of iodinateing must be carried out with precision, as improper iodination can lead to unwanted side effects or reduced efficacy of the compounds. Researchers and chemists must carefully control the conditions under which iodination occurs, including temperature, concentration, and reaction time. This level of control ensures that the desired outcome is achieved without compromising the integrity of the original compound.In conclusion, the term iodinate encompasses a wide range of applications across different fields, from medicine to industry. The ability to introduce iodine into various compounds opens up numerous possibilities for enhancing their functionality and effectiveness. As research continues to advance, the significance of iodinate will likely grow, leading to new innovations and discoveries that can benefit society as a whole. Understanding the process of iodinateion is essential for anyone involved in chemistry, medicine, or related fields, as it highlights the intricate relationship between chemical structure and biological activity, as well as the potential for developing novel solutions to complex problems.
在化学和医学领域,术语iodinate指的是将碘引入化合物或分子的过程。碘化反应是一种重要的反应,在各种应用中发挥着至关重要的作用,特别是在药物合成和诊断成像中。碘的重要性不容小觑,因为它是甲状腺正常功能所需的重要元素。当我们对有机化合物进行iodinate时,我们通常旨在增强它们的生物活性或改善它们的成像特性。例如,iodinate化合物最显著的应用之一是在医学成像技术(如X射线和CT扫描)中开发对比剂。这些对比剂有助于提高身体内部结构的可见性,从而更好地诊断各种疾病。通过iodinate某些分子,我们可以创造出更有效的对比剂,提供更清晰的图像,并帮助医疗专业人员做出准确的诊断。此外,iodinate过程也可以在某些药物的生产中找到。许多药物被设计用于靶向体内特定受体,而加入碘可以增强它们与这些受体的亲和力。这在放射药物的开发中尤为重要,这些药物用于核医学中的诊断和治疗。通过iodinate这些药物,我们可以确保它们有效地结合到预期目标上,从而提高其治疗效果。除了医学应用外,iodinate化合物在工业过程中也具有重要作用。例如,碘常用于聚合物和其他材料的合成。对这些物质进行iodinate可以导致改进的特性,例如增强强度或抗降解能力。这种多功能性使得碘在各个制造行业中成为一种宝贵的成分。然而,iodinate过程必须精确进行,因为不当的碘化可能导致不必要的副作用或降低化合物的有效性。研究人员和化学家必须仔细控制碘化发生的条件,包括温度、浓度和反应时间。这种控制水平确保了在不妨碍原始化合物完整性的情况下实现所需结果。总之,术语iodinate涵盖了不同领域的广泛应用,从医学到工业。将碘引入各种化合物的能力为增强它们的功能和有效性开辟了无数可能性。随着研究的不断推进,iodinate的重要性可能会增长,导致新的创新和发现,这些创新和发现可以使整个社会受益。理解iodinate过程对于任何参与化学、医学或相关领域的人来说都是至关重要的,因为它突出了化学结构与生物活性之间的复杂关系,以及开发新颖解决方案以应对复杂问题的潜力。
