Wahyudi Sriati, Rizoputra Ivan, Panatarani Camellia, Faizal Ferry, Bahtiar Ayi
Department of Biotechnology, Post Graduate School, Universitas Padjadjaran, Bandung, 40132, Indonesia.
Department of Physics, Faculty of Science and Data Analytics, Institut Teknologi Sepuluh Nopember, Surabaya, 60111, Indonesia.
J Fluoresc. 2024 Sep 25. doi: 10.1007/s10895-024-03931-2.
Carbon nano dots (CNDs) has received a lot of attention in recent years due to their potential use in various kinds of applications. Many conventional chemical methods have been used to synthesis CNDs, but these processes have several drawbacks, such as hazardous by products, harsh chemicals, and high costs. To overcome these issues, green chemistry has an importance in the development of CNDs. Thus, it is essential to explore green synthesis approaches for production the CNDs. In this context, a novel precursor using flavonoid extraction from Moringa oleifera leaves is proposed. Moringa oleifera is the "magic tree" which contains many bioactive compounds such as flavonoids, especially in its leaves. Natural flavonoids and glycosides with specific components of structure can bind to metal ions. The content of bioactive compounds such as total flavonoids found in Moringa oleifera leaves is 172.10 mg/g. In addition, carbon (47.34%), nitrogen (51.67%), and sulfur (0.99%) are also the main composition. Then, the carbon nanodots (CNDs) synthesized in this research were moderated by flavonoid extract from Moringa oleifera using the hydrothermal method. The technique is easy, ecologically friendly, and requires neither specialized device or reagents. In practice, the CNDs produced are almost circular, with an average diameter of 3.49 nm. Furthermore, we enhanced synthesis CNDs - Fla with heteroatoms of nitrogen (N) and sulfur (S). They display a broad excitation-emission spectrum, excitation-dependent emission, and extraordinary fluorescence. Therefore, the synthesis of CNDs using flavonoids from Moringa oleifera as precursors would be a great potential candidate for the development of novel types of heavy metals sensing.
近年来,碳纳米点(CNDs)因其在各种应用中的潜在用途而备受关注。许多传统化学方法已被用于合成碳纳米点,但这些过程存在一些缺点,如产生有害副产物、使用苛刻的化学物质以及成本高昂。为了克服这些问题,绿色化学在碳纳米点的开发中具有重要意义。因此,探索绿色合成方法来生产碳纳米点至关重要。在此背景下,提出了一种使用从辣木叶片中提取的类黄酮作为新型前体。辣木是“神奇之树”,含有许多生物活性化合物,如类黄酮,尤其是在其叶片中。具有特定结构成分的天然类黄酮和糖苷可以与金属离子结合。在辣木叶片中发现的生物活性化合物如总黄酮的含量为172.10毫克/克。此外,碳(47.34%)、氮(51.67%)和硫(0.99%)也是主要成分。然后,本研究中合成的碳纳米点(CNDs)采用水热法通过辣木的类黄酮提取物进行调控。该技术简单、生态友好,既不需要专门的设备也不需要试剂。实际上,所生产的碳纳米点几乎呈圆形,平均直径为3.49纳米。此外,我们用氮(N)和硫(S)等杂原子增强了合成的碳纳米点 - Fla。它们显示出宽激发 - 发射光谱、激发依赖发射和非凡的荧光。因此,以辣木中的类黄酮为前体合成碳纳米点将是开发新型重金属传感的极具潜力的候选方法。
