马耀光 - 浙江大学 - 光电科学与工程学院

个人简介

2012年于浙江大学获得博士学位，之后在北京大学物理学院、加州大学圣地亚哥分校(UCSD)、科罗拉多大学博尔德分校(CU Boulder)从事博士后研究。2018年一月入职浙江大学。

研究领域

主要研究方向为介观尺度光与物质相互作用，以及微/纳米技术在光子学、电子学、及能量输运系统中的应用。包括MetaMaterials与MetaSurfaces器件、非线性光学器件、超分辨显微成像系统研究等方面。

近期论文

查看导师最新文章（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）

5 Y. Gao, Z. Wang, D. Ding, W. Li, Y. Ma*, Y. Hao* and H. Zhang*, 'Novel Methods to Harness Solar Radiation for Advanced Energy Applications', ES Energy Environ., 5, 1-7 (2019). 4 M. Zhuge, C. Pan, Y. Zheng, J. Tang, S. Ullah, Y. Ma*, Q. Yang*, 'Wavelength‐Tunable Micro/Nanolasers', Advanced Optical Materials, 7, 1900275 (2019) 3 X. Liu, C. Meng, X. Xu, M. Tang, C. Pang, Y. Ma, Y. Shi, Q. Yang, X. Liu, C. F. Kaminski, 'Wide-field 3D nanoscopy on chip through large and tunable spatial-frequency-shift effect', arXiv preprint arXiv:1906.11647, (2019). 2 M. Zhuge, Z. Yang, J. Zhang, Y. Zheng, Q. Song, C. Pang, X. Liu, S. Ullah, C. Pan, N. Raghavan, X. Zhang,H. Li, Y Ma*, Q. Yang*, T. Hasan, 'Fiber-Integrated Reversibly Wavelength-Tunable Nanowire Laser Based on Nanocavity Mode Coupling', ACS Nano, 13 (9), 9965-9972 (2019) 1 X. Xu, X. Liu, C. Pang, Y. Ma, C. Meng, J. Zhang, X. Liu, Q. Yang 'Si3N4 waveguide platform for label-free super-resolution imaging: simulation and analysis', Journal of Physics D: Applied Physics, 52, 284002 (2019). before 2018 26 D Zhao, CE Martini, S Jiang, Y Ma, Y Zhai, G Tan, X Yin, R Yang，'Development of a Single-Phase Thermosiphon for Cold Collection and Storage of Radiative Cooling', Applied Energy 205 (NREL/JA-5500-70195), 1260-1269 25 Y. Zhai#, Y. Ma#, (contributed equally to the work) S. N. David, D. Zhao, R. Lou, G. Tan, R. Yang, and X. Yin, “Scalable-Manu factured Randomized Glass-Polymer Hybrid Metamaterial for Day-time Radiative Cooling,' Science, 355, 1062-1066 (2017). ESI highly-cited paper Highlighted in 'Metamaterials for perpetual cooling at large scales', Science, 355, 6329,1023-1024(2017) 'Cheap plastic film cools whatever it touches up to 10°C', Science (2017), doi:10.1126/science.aal0732 'Hybrid film cools in the Sun', Nature, 542, 274 (2017) 'Passive cooling doesn’t cost the planet', Physics Today 70, 4, 16 (2017) 'New metamaterial enhances natural cooling without power input', Physics World (2017), 'Novel metamaterial stays cool in the sun', Materials today (2017) , etc. Reported by： The Forbes, 'How This New Material Can Cool A Rooftop With Zero Energy Consumption' The Economists, 'How to keep cool without costing the Earth', Scientific American, 'Cool Coating Chills in Sunlight', etc. 24 L. Yao, L. Li, L. Qin, Y. Ma, W. Wang, H. Meng, W. Jin, Y. Wang, W. Xu, G. Ran, L. You and G. Qin, 'Efficient small molecular organic light emitting diode with graphene cathode covered by an Sm layer with nanohollows and n-doped by Bphen:Cs2CO3 in the hollows,' Nanotechnology 28, 105201 (2017). 23 Y. Ma, Q. Huang, T. Li, J. Villanueva, N. H. Nguyen, J. Friend, and D. J. Sirbuly, 'a local nanofiber optic ear,' ACS Photonics 3, 1762–1767 (2016). Highlighted in 'Plasmonic microphone', Nature Photonics 10, 691 (2016) 22 H. Zhang, Y. Wan, Y. Ma, W. Wang, Y. Wang, and L. Dai, 'Interference Effect on Optical Signals of Monolayer MoS2,' Applied Physics Letters 107, 101904 (2015). 21 H. Zhang, Y. Ma, Y. Wan, X. Rong, Z. Xie, W. Wang, and L. Dai, 'Measuring the Refractive Index of Highly Crystalline Monolayer MoS2 with High Confidence,' Scientific Reports 5, 8440 (2015). ESI highly-cited paper 20 Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, and X. Liu, 'Broadly Defining Lasing Wavelengths in Single Bandgap-Graded Semiconductor Nanowires,' Nano Letters 14, 3153-3159 (2014). 19 H. Qian#, Y. Ma#, Q. Yang, (contributed equally to the work) B. Chen, Y. Liu, X. Guo, S. Lin, J. Ruan, X. Liu, and L. Tong, 'Electrical Tuning of Surface Plasmon Polariton Propagation in Graphene–Nanowire Hybrid Structure,' ACS Nano 8, 2584-2589 (2014). ACS Editor’s choice 18 W. Yang, Y. Wang, Y. Ma, C. Meng, X. Wu, and Q. Yang, 'Lasing Characteristics of Curved Semiconductor Nanowires,' Frontiers of Optoelectronics 6, 448-451 (2013). 17 C. Liu, Y. Ma, W. Li, and L. Dai, 'The Evolution of Raman Spectrum of Graphene with The Thickness of SiO2 Capping Layer on Si Substrate,' Applied Physics Letters 103, 213103 (2013). 16 X. Guo, Y. Ma, Y. Wang, and L. Tong, 'Nanowire Plasmonic Waveguides, Circuits and Devices,' Laser & Photonics Reviews 7, 855-881 (2013). 15 Y. Ma, X. Guo, X. Wu, L. Dai, and L. Tong, 'Semiconductor Nanowire Lasers,' Advances in Optics and Photonics 5, 216-273 (2013). Top download Aug. 2013 Top download Sep. 2013 14 Y. Lu, F. Gu, C. Meng, H. Yu, Y. Ma, and L. Tong, 'Multicolor Laser from a Single Bandgap-Graded CdSSe Alloy Nanoribbon,' Optics Express 21, 22314–22319 (2013). 13 Y. Li, F. Wei, Y. Ma, H. Zhang, Z. Gao, L. Dai, and G. Qin, 'Selected-Control Hydrothermal Synthesis and Photoresponse Properties of Bi2S3 Micro/Nanocrystals,' CrystEngComm 15, 6611 (2013). 12 W. Yang, Y. Ma, Y. Wang, C. Meng, X. Wu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, 'Bending Effects on Lasing Action of Semiconductor Nanowires,' Optics Express 21, 2024-2031 (2013). 11 Y. Wang, Y. Ma, X. Guo, and L. Tong, 'Single-Mode Plasmonic Waveguiding Properties of Metal Nanowires with Dielectric Substrates,' Optics Express 20, 19006-19015 (2012). Top download Aug. 2012 Top download Sep. 2012 Top download Oct. 2012 10 G. Wang, X. Jiang, M. Zhao, Y. Ma, H. Fan, Q. Yang, L. Tong, and M. Xiao, 'Microlaser Based on a Hybrid Structure of a Semiconductor Nanowire and a Silica Microdisk Cavity,' Optics Express 20, 29472-29478 (2012). 9 Y. Ma and L. Tong, 'Optically Pumped Semiconductor Nanowire Lasers,' Frontiers of Optoelectronics 5, 239247 (2012). 8 Z. Hu, W. Li, Y. Ma, and L. Tong, 'General Approach to Splicing Optical Microfibers via Polymer Nanowires,' Optics Letters 37, 4383-4385 (2012). 7 X. Zhang, Z. Ma, H. Yu, X. Guo, Y. Ma, and L. Tong, 'Plasmonic Resonance of Whispering Gallery Modes in an Au Cylinder,' Optics Express 19, 3902-3907 (2011). 6 J. Lin, S. Yu, Y. Ma, W. Fang, F. He, L. Qiao, L. Tong, Y. Cheng, and Z. Xu, 'On-Chip Three-Dimensional High-Q Microcavities Fabricated by Femtosecond Laser Direct Writing,' Optics Express 20, 10212-10217 (2012). 5 Y. Ye, Y. Ma, S. Yue, L. Dai, H. Meng, Z. Li, L. Tong, and G. Qin, 'Lasing of CdSe/SiO2 Nanocables Synthesized by The Facile Chemical Vapor Deposition Method,' Nanoscale 3, 3072-3075 (2011). 4 Z. Ma, X. Zhang, X. Guo, Q. Yang, Y. Ma, and L. Tong, 'Surface Plasmon Excitation in Silver Nanowires Directly Deposited on a Laser Diode Chip,' Applied Physics Letters 96, 051119 (2010). 3 Y. Ma, X. Li, H. Yu, L. Tong, Y. Gu, and Q. Gong, 'Direct Measurement of Propagation Losses in Silver Nanowires,' Optics Letters 35, 1160-1162 (2010). 2 Y. Ma, X. Li, Z. Yang, H. Yu, P. Wang, and L. Tong, 'Pigtailed CdS Nanoribbon Ring Laser,' Applied Physics Letters 97, 153122 (2010). 1 X. Guo, M. Qiu, J. Bao, B. J. Wiley, Q. Yang, X. Zhang, Y. Ma, H. Yu, and L. Tong, 'Direct Coupling of Plasmonic and Photonic Nanowires for Hybrid Nanophotonic Components and Circuits,' Nano Letters 9, 4515-4519 (2009).