YU-TSAN LINWang, Liang-KaiLiang-KaiWangCheng, Yu-TingYu-TingChengCHIH-KUO LEETsai, Hsiao-EnHsiao-EnTsai2023-04-122023-04-122021-06-252379-3694https://scholars.lib.ntu.edu.tw/handle/123456789/630118Various clinical studies have shown that myocardial troponin T (cTnT) is highly correlated with acute myocardial infarction (AMI). A highly sensitive molecularly imprinted polymer (MIP) sensing electrode for the detection of cTnT in patients' blood serum can enable cost-effective, rapid, and real-time testing for patients requiring intensive care. However, the existing MIP-based sensing electrode does not perform well for low-concentration detection of cTnT (<0.2 ng/mL). In this study, a new type of sensing electrode, an anodic aluminum oxide molecularly imprinted (MIP/AAO) nanocomposite electrode is developed. By incorporating the AAO structure, i.e., one-dimensional (1D) pillars, through a semiconductor-compatible process, the new electrode exhibits a great performance improvement, higher sensitivity of 1.08 × 10-4 and 4.25 × 10-4 in the low (<0.03 ng/mL)- and high-concentration regions, respectively, and a lower limit of detection (LoD) of 5.34 pg/mL. Because the composite electrode can maintain a linear characteristic in the measurement range of low-concentration cTnT, it can effectively improve the accuracy and reduce the error in cTnT measurement. In addition, the novel sensing electrode exhibits good reusability and specificity.enanodic aluminum oxidecardiac troponin Tlimit of detectionmolecularly imprinted polymernanocomposite electrodereusabilityspecificity[SDGs]SDG3journal article10.1021/acssensors.1c00738341014352-s2.0-85109035710WOS:000668374500042