High-Linearity Hydrogel-Based Capacitive Sensor Based on Con A -Sugar Affinity and Low-Melting-Point Metal.
Ruixue YinJizhong XinDasheng YangYang GaoHongbo ZhangZhiqin QianWenjun ZhangPublished in: Polymers (2022)
Continuous glucose monitoring (CGM) plays an important role in the treatment of diabetes. Affinity sensing based on the principle of reversible binding to glucose does not produce intermediates, and the specificity of concanavalin A ( Con A ) to glucose molecules helps to improve the anti-interference performance and long-term stability of CGM sensors. However, these affinity glucose sensors have some limitations in their linearity with a large detection range, and stable attachment of hydrogels to sensor electrodes is also challenging. In this study, a capacitive glucose sensor with high linearity and a wide detection range was proposed based on a glucose-responsive DexG-Con A hydrogel and a serpentine coplanar electrode made from a low-melting-point metal. The results show that within the glucose concentration range of 0-20 mM, the sensor can achieve high linearity (R 2 = 0.94), with a sensitivity of 33.3 pF mM -1 , and even with the larger glucose concentration range of 0-30 mM the sensor can achieve good linearity (R 2 = 0.84). The sensor also shows resistance to disturbances of small molecules, good reversibility, and long-term stability. Due to its low cost, wide detection range, high linearity, good sensitivity, and biocompatibility, the sensor is expected to be used in the field of continuous monitoring of blood glucose.
Keyphrases
- blood glucose
- low cost
- glycemic control
- type diabetes
- drug delivery
- blood pressure
- high resolution
- cardiovascular disease
- label free
- loop mediated isothermal amplification
- real time pcr
- metabolic syndrome
- tissue engineering
- wound healing
- weight loss
- mass spectrometry
- sensitive detection
- reduced graphene oxide
- replacement therapy