基于碳点纳米杂化材料的 pH 响应型高灵敏荧光法检测尿素和脲酶

pH-induced highly sensitive fluorescence detection of urea and urease based on carbon dots-based nanohybrids.

机构信息

Key Laboratory of Optoelectronic Technology & Systems (Chongqing University), Ministry of Education, Chongqing 400044, China.

Key Laboratory of Optoelectronic Technology & Systems (Chongqing University), Ministry of Education, Chongqing 400044, China; Centre for NanoHealth, College of Engineering, Swansea University, Singleton Park, Swansea SA2 8PP, UK.

出版信息

Spectrochim Acta A Mol Biomol Spectrosc. 2022 Mar 15;269:120705. doi: 10.1016/j.saa.2021.120705. Epub 2021 Dec 3.

DOI:10.1016/j.saa.2021.120705

PMID:34922286

Abstract

Carbon quantum dots (CDs) have become one of the most popular fluorescent materials due to their intriguing performance, which are favored by many fields. However, it is difficult to synthesize CDs with high quantum yield by the simple synthesis methods. In this paper, we fabricated CDs- silicon (SiO) spheres composites via a versatile hydrothermal route. The prepared BCD-SiO composites exhibited an approximately 10-fold increase in the fluorescence intensity over that of BCDs. At the same time, the purification path was simplified by the facile separation of SiO spheres. The prepared BCD-SiO composites were used to fabricate a special sensing platform for the ultrasensitive detection of urea and urease, with detection limits of 1.67 μM and 0.002 mg/mL, respectively. Furthermore, this strategy was successfully applied to the detection of real samples. This result shows that as-prepared BCDs-SiO composites are promising for broad application to biological analysis.

摘要

碳量子点 (CDs) 由于其引人入胜的性能而成为最受欢迎的荧光材料之一，受到许多领域的青睐。然而，通过简单的合成方法很难合成具有高量子产率的 CDs。本文通过一种通用的水热路线制备了 CDs-硅 (SiO) 球复合材料。所制备的 BCD-SiO 复合材料的荧光强度比 BCDs 提高了约 10 倍。同时，通过 SiO 球的简便分离简化了纯化路径。所制备的 BCD-SiO 复合材料被用于构建用于超灵敏检测尿素和脲酶的特殊传感平台，检测限分别为 1.67 μM 和 0.002 mg/mL。此外，该策略成功应用于实际样品的检测。该结果表明，所制备的 BCD-SiO 复合材料有望广泛应用于生物分析。

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基于碳点纳米杂化材料的 pH 响应型高灵敏荧光法检测尿素和脲酶

pH-induced highly sensitive fluorescence detection of urea and urease based on carbon dots-based nanohybrids.

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