Departmentof Chemistry, Faculty of Basic Sciences, Tarbiat Modares University, P.O. Box 14115-175, Tehran, Iran.
J Fluoresc. 2024 Jul;34(4):1865-1876. doi: 10.1007/s10895-023-03407-9. Epub 2023 Sep 1.
A simple and low-cost green preparation method was used for BSA capped silver nanoclusters (BSA-Ag NCs) as turn on fluorescent probe for glucose. Non-enzymatic fast glucose detection assay with a widest concentration range was proposed which requires neither nanoclusters (NCs) modification nor complicated enzyme immobilization. The DLS analysis, HRTEM patterns, fluorescence and UV-visible measurement well supported the synthesis product. The advantages of the fabricated glucose sensor based on fluorescence increasing of probe compared to other established optical techniques was inspected and summarized as well. The glucose sensor exhibited a high sensitivity, fast response time (in seconds), satisfactory selectivity, well stability (at least two months), low detection limit (31 µmol L) and a wide concentration response (three orders of magnitudes) to glucose between 0.1 and 92 mmol L as calibration plot. A theoretical model of the sensing mechanism based on the binding interaction of glucose to BSA-Ag NCs is proposed and data fitting demonstrated a good agreement between the experimental and theoretically calculated fluorescence data. The facile preparation and excellent sensing performance of BSA-Ag NCs in the real samples (plasma and juice) make sure that synthesized probe material is a promising candidate for advanced enzyme-free glucose sensing approach.
采用一种简单且低成本的绿色制备方法,制备牛血清白蛋白(BSA)包裹的银纳米团簇(BSA-Ag NCs)作为葡萄糖的开启型荧光探针。提出了一种无酶快速检测葡萄糖的方法,具有最宽的浓度检测范围,既不需要纳米簇(NCs)修饰,也不需要复杂的酶固定化。DLS 分析、HRTEM 图谱、荧光和紫外-可见测量均支持合成产物。还检查并总结了基于探针荧光增强的葡萄糖传感器与其他已建立的光学技术相比的优点。与其他光学技术相比,该葡萄糖传感器具有高灵敏度、快速响应时间(以秒为单位)、令人满意的选择性、良好的稳定性(至少两个月)、低检测限(31 μmol L)和宽浓度响应范围(三个数量级),可在 0.1 至 92 mmol L 的范围内检测葡萄糖。提出了基于葡萄糖与 BSA-Ag NCs 结合相互作用的传感机制理论模型,数据拟合表明实验和理论计算荧光数据之间具有良好的一致性。BSA-Ag NCs 在实际样品(血浆和果汁)中的简便制备和优异的传感性能,确保了合成探针材料是一种很有前途的无酶葡萄糖传感方法的候选材料。
