Welcome to Bioelectronics and Nanosystem Lab
Our lab mainly focus on integrating bio-material, nano materials and semiconductor devices together to explore a new research area : bioelectronics and bionanotechnology.
A High Sensitivity Hydrogen Peroxide Sensor with Ultra-Low Detection Limit Based on Enzyme Immobilization and N-Alkylated Poly(Aniline)
• Ultra-low detection limit (0.7nM)
• Magnitude of the signals is relevant to the total amount of H2O2
• Detection limit is determined by the concentration of H2O2
• Small and Low cost
• Biomedical applications
• Magnitude of the signals is relevant to the total amount of H2O2
• Detection limit is determined by the concentration of H2O2
• Small and Low cost
• Biomedical applications
Human immunodeficiency virus drug development assisted with AlGaN/GaN high electron mobility transistors and binding-site models
Human immunodeficiency virus (HIV) Reverse Transcriptase (RT)-immobilized AlGaN/GaN high electron mobility transistors (HEMTs) and binding-site models were used to find out the dissociation constants of the HIV RT-inhibitor complex and the number of the binding sites on RT for the inhibitor, Efavirenz. One binding site on the RT for the inhibitor is.......
AlGaN/GaN high electron mobility transistors for protein–peptide binding affinity study
Antibody-immobilized AlGaN/GaN high electron mobility transistors (HEMTs) were used to detect a short peptide consisting of 20 amino acids. One-binding-site model and two-binding-site model were used for the analysis of the electrical signals, revealing the number of binding sites on an antibody and the dissociation constants between the antibody and the short peptide.