段忆翔 - 四川大学 - 生命科学学院

个人简介

四川省百人计划特聘教授；四川省学术和技术带头人；原美国国家实验室资深科学家。于2010年进入四川大学开展相关科学研究工作。重点研究分析化学与生物分析的新技术，新方法和新仪器。实验室以生命分析学科发展为基础，水平提升为导向，人才培养为目标，服务社会为宗旨，将科学研究与实际应用相结合，致力于解决与科学发展和民生相关的重大科学问题，将基础理论研究与工程化产业化相结合，促进科研成果转化，为国家培养实用型高端人才；组建一个具有多学科交叉，良好协同合作能力的优秀科研团队；通过多方渠道与法国、美国、西班牙等多个高校的优秀科研团队联合培养研究生，共同开展双方或多方感兴趣的相关研究工作；积极与各国际优秀公司成立联合实验室（现已成立的包括德国LTB公司，美国海洋光学公司等）。自2010年8月回国至今，6年间已申请发明专利和实用新型专利共计70余项，发表SCI论文100余篇。

研究领域

主要从事的研究领域包括：1、新型生物传感器；2、生物成像技术；3、非侵入式医学诊断；4、生物质谱技术；5、创新型分析仪器及激光光谱分析方法。

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.Zhao Z., B. Wang, Duan. Y. Exploration of Microplasma Probe Desorption/Ionization Mass Spectrometry (MPPDI-MS) for Biologically Related Analysis. Analytical Chemistry 88, 1667-1673 (2016). 2. Wang Y., Z. Luo, K. Liu, J. Wang, Duan. Y. In situ targeting TEM8 via immune response and polypeptide recognition by wavelength-modulated surface plasmon resonance biosensor. Scientific Reports 1-9, (2016). 3. Yuan X., X. Zhan, X. Li, Z. Zhao, Duan. Y. Matrix-Assisted Plasma Atomization Emission Spectrometry for Surface Sampling Elemental Analysis. Scientific Reports 1-9, (2016). 4. Wang Y., K. Liu, Z. Luo, Duan. Y. Preparation and tumor cell model based biobehavioral evaluation of the nanocarrier system using partially reduced graphene oxide functionalized by surfactant. International Journal of Nanomedicine 10, 4605-4620 (2014). 5. Tang J., Duan. Y. et al. Observation and interpretation of energy efficient, diffuse direct current glow discharge at atmospheric pressure. Applied Physics Letters 107, 115012 (2015). 6. Tang Z., Y. Liu, Duan. Y. Development of solid-phase microextraction fibers based on multi-walled carbon nanotubes for pre-concentration and analysis of alkanes in human breath. Journal of Chromatography A 1425, 34-41 (2015). 7. Xu T. Duan. Y. et al. Multi-elemental surface mapping and analysis of carbonaceous shale by laser-induced breakdown spectroscopy. Spectrochimica Acta Part B-Atomic Spectroscopy 115, 31-39 (2016). 8. Wang X., Wei Y., Q. Lin, J. Zhang, Duan. Y. Simple, fast matrix conversion and membrane separation method for ultrasensitive metal detection in aqueous samples by laser-induced breakdown spectroscopy. Analytical Chemistry 87, 5577-5583 (2015). 9. Zhang J., Duan. Y. et al. Novel signal-enhancing immunoassay for ultrasensitive biomarker detection based on laser-induced fluorescence. Analytical Chemistry 87, 2959-2965 (2015). 10. Luo D. B., Y. X. Duan, He Y., B. Gao. A novel DC microplasma sensor constructed in a cavity PDMS chamber with needle electrodes for fast detection of methanol-containing spirit. Scientific Reports 4, 7451-7451 (2014). 11. Yao J., Yang M., Duan. Y. Chemistry, biology, and medicine of fluorescent nanomaterials and related systems: new insights into biosensing, bioimaging, genomics, diagnostics, and therapy. Chemical Reviews 114, 6130-6178 (2014). 12. Meng F., X. Li, Duan. Y. Chip-based ingroove microplasma with orthogonal signal collection: new approach for carbon-containing species detection through open air reaction for performance enhancement. Scientific Reports 4, 4803-4803 (2014). 13. Yin W., B. Li, W. Xu, Duan. Y. Magnified fluorescence detection of silver(I) ion in aqueous solutions by using nano-graphite-DNA hybrid and DNase I. Biosensors & bioelectronics 58, 276-281 (2014). 14. Wei Y., B. Li, Wang X., Duan. Y. A nano-graphite-DNA hybrid sensor for magnified fluorescent detection of mercury(II) ions in aqueous solution. Analyst 139, 1618-1621 (2014). 15. Lin Q. Duan. Y. et al. Laser-induced breakdown spectroscopy for solution sample analysis using porous electrospun ultrafine fibers as a solid-phase support. Rsc Advances 4, 14392-14399 (2014). 16. Yu Q., Wang X., Duan. Y. Capillary-Based Three-Dimensional Immunosensor Assembly for High-Performance Detection of Carcinoembryonic Antigen Using Laser-Induced Fluorescence Spectrometry. Analytical Chemistry 86, 1518-1524 (2014). 17. Yuan X., Duan. Y. et al. An effective analytical system based on a pulsed direct current microplasma source for ultra-trace mercury determination using gold amalgamation cold vapor atomic emission spectrometry. Spectrochimica Acta Part B-Atomic Spectroscopy 93, 1-7 (2014). 18. Zhu X., Xu T., Q. L. Duan, Y. Technical Development of Raman Spectroscopy: From Instrumental to Advanced Combined Technologies. Applied Spectroscopy Reviews 49, 64-82 (2014).