植物基碳点是生物医学和传感应用领域传统纳米材料的可持续替代品

Shanmuga Priya S, Suseem S R
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引用次数: 0

摘要

碳点是以碳为基础的小颗粒,具有独特的性质,可用于各种应用。它们具有毒性低、生物相容性好、光致发光性能优异、稳定性高和易于合成等优点。这些特点使它们在生物医学成像、药物输送和光电设备方面大有可为。从植物中提取的碳点具有多种优点,包括毒性低、生物相容性好和来源可再生。此外,它们还具有出色的水溶性和高稳定性,并且可以使用简单、低成本的方法轻松合成。这些特性使它们成为各种生物医学、传感和成像应用的理想候选材料。植物基碳点在金属传感和生物成像应用中显示出巨大的潜力。由于具有很强的螯合和荧光特性,它们可以作为检测重金属的高效传感器。本文介绍了植物基碳点,强调了它们的低毒性、生物相容性、可再生性以及在金属传感和生物成像方面的潜力。文章旨在说明它们的多种应用以及为更广泛地使用它们而正在进行的研究。目前的研究探索了它们的全部潜力,并开发了新的合成和应用方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plant-based carbon dots are a sustainable alternative to conventional nanomaterials for biomedical and sensing applications
Carbon dots are small carbon-based particles with unique properties that make them useful in various applications. Some advantages include low toxicity, bio-compatibility, excellent photo luminescence, high stability, and ease of synthesis. These features make them promising for biomedical imaging, drug delivery, and optoelectronic devices. Carbon dots derived from plants have several advantages, including their low toxicity, biocompatibility, and renewable sources. They also have excellent water solubility and high stability and can be easily synthesized using simple and low-cost methods. These properties make them promising candidates for various biomedicine, sensing, and imaging applications. Plant-based carbon dots have shown great potential in metal sensing and bio-imaging applications. They can act as efficient sensors for detecting heavy metals due to their strong chelation and fluorescence properties. This article showcases plant-based carbon dots, emphasizing their low toxicity, biocompatibility, renewability, and potential in metal sensing and bio-imaging. It aims to illustrate their versatile applications and ongoing research for broader use. The current investigation explores their full potential and develops new synthesis and application methods.
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