马晔

发布时间:2020-10-12信息来源:材料科学与工程学院浏览次数:6549

马晔,男,博士,讲师

邮箱maye@ouc.edu.cn

  

教育经历

2015.10 - 2019.10 博士,英国帝国理工学院(Imperial College London),化学系

2012.09 - 2015.05 硕士,浙江大学,材料科学与工程学院,硅材料国家重点实验室

2008.09 - 2012.07 学士,武汉理工大学,材料科学与工程学院

  

研究方向

基础研究:金属纳米颗粒、半导体、石墨烯等纳米材料的合成、组装及其电化学、光学性质探究;基于上述结构单元的可调超材料(meta-materials)的构建。

应用研究:以上述材料的电化学、光学性质为基础,针对重金属、有机污染物的海洋传感;针对生化小分子、DNA等的生物传感;光学滤镜、智能玻璃。

  

主持科研项目情况

2022-2024国家自然科学基金青年基金

2022-2024山东省自然科学基金青年基金

2021-2022中央高校基本科研业务费项目

2020-2021中国博士后基金面上项目

2020-2021青岛市应用研究项目

  

代表性论文

[1] Y. Ma1, M. Li1, Z. M. Li, M. G. Zhao*, Light regulated heterojunctions with tunable interfacial energy barriers for sensitive and specific detection of copper ions, Chemical Engineering Journal. 2022, 431: 133880. (影响因子13.273) 

[2]M. Zhao*, J. Yu, X. Zhang, Z. Li, Y. Ding, J. B. Edel*, Y. Ma*, H. Li, Tuning Interfacial Energy Barriers in Heterojunctions for Anti-Interference Sensing, Advanced Functional Materials, 2021, 7:2008604. (影响因子16.836)

[3] Y. Ma, D. Sikdar, Q. He, D. Kho, A.R. Kucernak, A.A. Kornyshev*, J.B. Edel*, Self-Assembling Two-Dimensional Nanophotonic Arrays for Reflectivity-Based Sensing, Chemical Science, 2020, 11: 9563-9570. (影响因子9.346)

[4] Y. Ma, D. Sikdar, A. Fedosyuk, L. Velleman, D.J. Klemme, S.-H. Oh, A.R.J. Kucernak, A.A. Kornyshev*, J.B. Edel*, Electrotunable Nanoplasmonics for Amplified Surface Enhanced Raman Spectroscopy, ACS Nano, 2020, 14: 328-336. (影响因子14.588)

[5] M. Zhao*, Z. Li, X. Zhang, J. Yu, Y. Ding, H. Li, Y. Ma*, Employing the Interfacial Barrier of P-rGO/ZnO Microspheres for Improving the Electrochemical Sensing Performance to Dopamine, Sensors and Actuators B: Chemical, 2020, 309: 127757. (影响因子7.100)

[6] Y. Ma, D. Sikdar, A. Fedosyuk, L. Velleman, M. Zhao, L. Tang, A.A. Kornyshev*, J.B. Edel*, Auxetic Thermoresponsive Nanoplasmonic Optical Switch, ACS Applied Materials & Interfaces, 2019, 11: 22754-22760. (影响因子8.758)

[7] Y. Ma, C. Zagar, D.J. Klemme, D. Sikdar, L. Velleman, Y. Montelongo, S.-H. Oh, A.R. Kucernak*, J.B. Edel*, A.A. Kornyshev*, A Tunable Nanoplasmonic Mirror at an Electrochemical Interface, ACS Photonics, 2018, 5: 4604-4616. (影响因子6.864)

[8] Y. Ma, M.G. Zhao, B. Cai, W. Wang, Z.Z. Ye, J.Y. Huang*, 3D Graphene Foams Decorated by CuO Nanoflowers for Ultrasensitive Ascorbic Acid Detection, Biosensors & Bioelectronics, 2014, 59: 384-388. (影响因子10.257)

[9] Y. Montelongo, D. Sikdar, Y. Ma, A.J.S. McIntosh, L. Velleman, Anthony R. Kucernak*, J.B. Edel*, A.A. Kornyshev*, Electrotunable Nanoplasmonic Liquid Mirror, Nature Materials, 2017, 16: 1127-1135. (影响因子38.663)



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