chelate compound

简明释义

螯合物

英英释义

例句

1.Researchers are developing new chelate compounds to improve drug delivery systems.

研究人员正在开发新的螯合化合物以改善药物输送系统。

2.The use of a chelate compound in agriculture can enhance nutrient absorption in plants.

在农业中使用螯合化合物可以增强植物对营养的吸收。

3.In medicine, a chelate compound is often used to treat heavy metal poisoning.

在医学中，螯合化合物常用于治疗重金属中毒。

4.The chelate compound EDTA is commonly used in laboratory settings for metal ion sequestration.

螯合化合物EDTA常用于实验室环境中金属离子的隔离。

5.A chelate compound can help stabilize metal ions in solution.

螯合化合物可以帮助稳定溶液中的金属离子。

作文

Chelate compounds play a crucial role in various fields, including chemistry, biology, and medicine. These compounds are formed when a metal ion binds to a molecule, creating a stable ring-like structure. This process is known as chelation, and it significantly enhances the solubility and bioavailability of the metal ions involved. In this essay, we will explore the significance of chelate compound (螯合化合物) in different applications, such as nutrient absorption in plants, detoxification in humans, and their use in medical treatments.In agriculture, chelate compounds (螯合化合物) are essential for improving the uptake of micronutrients by plants. Many essential trace elements, such as iron, zinc, and manganese, exist in forms that are not easily absorbed by plant roots. By forming chelate compounds (螯合化合物) with these metals, they become more soluble and accessible to plants. This increased availability ensures that crops receive the necessary nutrients for optimal growth and development, ultimately leading to higher yields and better quality produce.In human health, chelate compounds (螯合化合物) have gained attention for their ability to detoxify harmful heavy metals from the body. Heavy metal poisoning can result from environmental exposure or industrial processes, leading to severe health issues. Chelation therapy involves administering chelate compounds (螯合化合物) that bind to toxic metals like lead, mercury, and arsenic, allowing them to be excreted through urine. This therapeutic approach has been proven effective in treating conditions caused by heavy metal accumulation, providing a safer alternative to more invasive procedures.Moreover, chelate compounds (螯合化合物) are widely used in the pharmaceutical industry. For instance, certain antibiotics and anticancer agents utilize chelation to enhance their efficacy. By forming chelate compounds (螯合化合物) with metal ions, these drugs can improve their stability and increase their effectiveness in targeting specific cells. This property is particularly important in cancer treatment, where precision and reduced side effects are paramount.In conclusion, the importance of chelate compounds (螯合化合物) cannot be overstated. Their ability to enhance nutrient absorption in agriculture, facilitate detoxification in humans, and improve the efficacy of pharmaceutical agents demonstrates their versatility and significance across multiple disciplines. As research continues to advance our understanding of these compounds, we can expect to see even more innovative applications that harness the power of chelation for the benefit of health and agriculture. The future of chelate compounds (螯合化合物) looks promising, and their continued study may lead to groundbreaking discoveries that further enhance their utility in our everyday lives.

螯合化合物在化学、生物学和医学等多个领域发挥着至关重要的作用。这些化合物是通过金属离子与分子的结合而形成的，创造出一种稳定的环状结构。这个过程被称为螯合，显著增强了相关金属离子的溶解度和生物可利用性。在这篇文章中，我们将探讨螯合化合物（chelate compound）在不同应用中的重要性，例如植物中的营养吸收、人类的解毒以及它们在医疗治疗中的使用。在农业中，螯合化合物（chelate compound）对于改善植物对微量营养素的吸收至关重要。许多必需的微量元素，如铁、锌和锰，以不易被植物根部吸收的形式存在。通过与这些金属形成螯合化合物（chelate compound），它们变得更加溶解并且更容易被植物吸收。这种可用性的增加确保了作物获得最佳生长和发育所需的必要营养，最终导致更高的产量和更好的产品质量。在人类健康方面，螯合化合物（chelate compound）因其能从体内解毒有害重金属而受到关注。重金属中毒可能源于环境暴露或工业过程，导致严重的健康问题。螯合疗法涉及使用螯合化合物（chelate compound）来结合有毒金属，如铅、汞和砷，从而使它们能够通过尿液排出。这种治疗方法已被证明在治疗由重金属积累引起的疾病方面有效，提供了一种比更具侵入性的程序更安全的替代方案。此外，螯合化合物（chelate compound）在制药行业中被广泛使用。例如，某些抗生素和抗癌药物利用螯合作用来增强其疗效。通过形成螯合化合物（chelate compound）与金属离子，这些药物可以提高其稳定性并增强其靶向特定细胞的有效性。这一特性在癌症治疗中尤为重要，在那里精确性和减少副作用至关重要。总之，螯合化合物（chelate compound）的重要性不可低估。它们在农业中增强营养吸收、在人类中促进解毒以及提高药物有效性的能力显示了它们在多个学科中的多样性和重要性。随着研究的不断推进，加深我们对这些化合物的理解，我们可以期待看到更多创新应用，利用螯合的力量为健康和农业带来益处。螯合化合物（chelate compound）的未来看起来充满希望，它们的持续研究可能会导致突破性的发现，进一步增强它们在我们日常生活中的实用性。