Strong enzyme immobilization associated by anatase TiO2 sputtered on platinum black nanoclusters to improve sensitivity and long-term stability of electrochemical cholesterol sensor
- Strong enzyme immobilization associated by anatase TiO2 sputtered on platinum black nanoclusters to improve sensitivity and long-term stability of electrochemical cholesterol sensor
- 강지윤; 이수현; 이이재; 이민교
- Anatase TiO2 thin film; Platinum black; Enzyme immobilization; CholesterolCyclic voltammetry; Long-term storage stability
- Issue Date
- Sensors and actuators. B, Chemical
- VOL 334, 129617
- Enzyme immobilization is one of the essential features to achieve a high-performance, enzyme-based electrochemical sensor. Here, we developed a simple and strong immobilization strategy that provides a sensitive, selective, and stable cholesterol sensor fabricated by conventional MEMS processes. As the immobilization strategy, pure anatase TiO2 film was sputtered on platinum black (BPt) nanoclusters as a working electrode for large effective surface areas, since TiO2 has various surface OH groups, including Ti-OH, that can be used as linkers to immobilize enzyme molecules. We prepared BPt, TiO2/BPt, and annealed TiO2/BPt and analyzed using quantitative XPS and FTIR measurement. It was demonstrated that TiO2/BPt achieved solid enzyme immobilization (our quantified score = 1.23) compared to BPt (score = 0.04) and annealed TiO2/BPt (score = -0.02) electrodes. This is due to its large amount of reactive OH groups (reactive IOH/ITi-O ∼ 23.8 % of TiO2/BPt vs. inactive IO1s/IPt4f ∼ 17.7 % of BPt) and high surface energy. Accordingly, TiO2/BPt exhibited superior sensitivity (81.2 μAradical dotμM-1 cm-2; LOD = 0.96 μM) and a low KM value (9.21 μM) compared to other electrodes. Notably, TiO2/BPt provided great stability (∼96.4 %) for 30 days as well as selectivity and reusability. We believe this study provides new insights that could allow simpler and better immobilization methods for industrial applicable biosensors.
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