马晔,男,博士,副教授
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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