期刊
BIOSENSORS & BIOELECTRONICS
卷 194, 期 -, 页码 -出版社
ELSEVIER ADVANCED TECHNOLOGY
DOI: 10.1016/j.bios.2021.113600
关键词
Electrochemiluminescence; MXenes; TiO2-Ti3C2; Glucose; GODx; In situ formation of TiO2 nanowires
类别
资金
- National Natural Science Foundation of China [21974042, 21904039, 21874080, 21645008]
- Scientific Research Fund of Hunan Provincial Education Department [18A010]
- Science and Technology Department of Hunan Province [14JJ4030, 2020JJ5352]
A sensitive ECL biosensor for glucose was developed based on TiO2-Ti3C2 nanoplatform, showing high sensitivity, low detection limit, and excellent selectivity, which holds great potential for applications in clinical diagnostics and wearable sensors.
A sensitive electrogenerated chemiluminescence (ECL) biosensor for glucose was developed based on in situ growth of TiO2 nanowires on Ti3C2 MXenes (TiO2-Ti3C2) as the nanoplatform. Via tuning the alkaline oxidation time, different amount of TiO2 nanowires can be found on MXenes. An ECL biosensor for glucose was constructed by covalent immobilization of glucose oxidase (GODx) on the glycine functional TiO2-Ti3C2 surface, with the ECL signal depending on the in-situ formation of H2O2 via the specifically catalysis of glucose by GODx, resulting in the apparent increase of ECL signal. The TiO2 -Ti3C2 can also act as the catalyst for the oxidation of H2O2 into O-2 to enhance the ECL of luminol. Based on this strategy, a highly sensitive ECL biosensor for glucose was obtained in wide concentration range of 20 nM-12 mM with a low detection limit of 1.2 nM (S/N = 3). The synergistic effects of large surface area, excellent conductivity, and high catalytic activity of the TiO2-Ti3C2 make the sensor highly sensitive toward glucose; the specific enzyme catalysis reaction promises excellent selectivity of the ECL sensor. The proposed biosensor has been employed to detect glucose in human serum, fruits, and sweat samples with excellent performance, providing a universal approach for glucose in various samples, which shows great prospect in clinical diagnostics and wearable sensors.
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