| 姓名:叶海航 特任研究员 单位:中国科学技术大学 苏州高等研究院 邮箱:haihangye@ustc.edu.cn |
主要研究方向与成果:
1)单分子与单颗粒检测
Ye, H., et al., Digital plasmonic nanobubble detection for rapid and ultrasensitive virus diagnostics. Nature Communications, 2022, 13(1), p.1687.
2)高灵敏现场快速测试
Ye, H., et al., Plasmonic LAMP: Improving the Detection Specificity and Sensitivity for SARS-CoV-2 by Plasmonic Sensing of Isothermally Amplified Nucleic Acids. Small, 2022, 18(12), p.2107832.
Ye, H., et al., Gold Nanourchins Improve Virus Targeting and Plasmonic Coupling for Virus Diagnosis on a Smartphone Platform. ACS Sensors, 2022, 7(12), pp.3741-3752.
3)功能性纳米材料合成
Ye, H., et al., Ru nanoframes with an fcc structure and enhanced catalytic properties. Nano Letters, 2016, 16(4), pp.2812-2817.
Ye, H., et al., Peroxidase-like properties of ruthenium nanoframes. Science Bulletin, 2016, 61(22), pp.1739-1745.
代表性论文:
Ye, H., et al., Digital plasmonic nanobubble detection for rapid and ultrasensitive virus diagnostics. Nature communications, 2022, 13(1), p.1687.
Ye, H., et al., Plasmonic LAMP: Improving the Detection Specificity and Sensitivity for SARS-CoV-2 by Plasmonic Sensing of Isothermally Amplified Nucleic Acids. Small, 2022, 18(12), p.2107832.
Ye, H., et al., Gold Nanourchins Improve Virus Targeting and Plasmonic Coupling for Virus Diagnosis on a Smartphone Platform. ACS Sensors, 2022, 7(12), pp.3741-3752.
Ye, H., et al., An enzyme-free signal amplification technique for ultrasensitive colorimetric assay of disease biomarkers. ACS Nano, 2017, 11(2), pp.2052-2059.
Ye, H., et al., Ru nanoframes with an fcc structure and enhanced catalytic properties. Nano Letters, 2016, 16(4), pp.2812-2817.