钼
二硫化钼
铜
材料科学
兴奋剂
二硫键
复合材料
冶金
光电子学
化学
生物化学
作者
Jingmin Ge,Shitai Wen,Zhaoyang Feng,Wei Peng,Pan Liu,Jingfang Ji,Guochen Qi
标识
DOI:10.1109/jsen.2025.3551726
摘要
The development of enzyme-free flexible glucose sensors is essential for advancing diabetes management, improving blood glucose control, and reducing the burden of monitoring. Herein, a simple two-step method was used to synthesize Cu-MoS2 for glucose electrochemical sensing, which was then assembled onto flexible carbon cloth to form a flexible sensor (signed as Cu-MoS2). The Cu-MoS2 exhibits a sensitivity of $364~\mu $ A/(mM $\cdot $ cm2) over a wide linear range of $1~\mu $ M–20 mM. It is reliable, reproducible, and electrochemically stable, with high specificity for glucose. After bending and stretching the Cu-MoS2, its sensing performance was re-evaluated. The results showed that Cu-MoS2 retained excellent sensitivity, interference resistance, and stability, indicating its potential to meet the real-time blood glucose monitoring requirements of flexible sensors. Density generic function theory (DFT) calculations showed that the introduction of Cu into MoS2 can enhance the adsorption and activation of glucose molecules, which is conducive to the oxidative dehydrogenation steps of –CHO and –OH in glucose, thereby improving the glucose sensing performance. The preparation method for the flexible sensor proposed in this work provides valuable technical guidance and shows promising potential for the development of flexible blood glucose sensors.
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