- [1] 程桐怀. Enhanced Faraday rotation by a Fano resonance in substrate-free three-dimensional magnetoplasmonic structures. Nanoscale, 15, 15583, 2023.
- [2] 盛凯. A Carbonate-Templated Decanuclear Mn Nanocage with Two Different Silsesquioxane Ligands. Inorganic Chemistry , 60, 14866, 2021.
- [3] 杨华荣. Efficient Suppression of Persistent Photoconductivity in β-Ga2O3-Based Photodetectors with Square Nanopore Arrays. ACS. Appl. Mater. Interfaces, 15, 32561, 2023.
- [4] 宋金梅. Enhanced extraordinary terahertz transmission through coupling between silicon resonators. NANOSCALE ADVANCES, 4, 2494-2500, 2022.
- [5] 张翼飞. Tunable Surface Plasmon Polaritons with Monolithic Schottky Diodes. ACS Applied Electronic Materials, 2124, 2019.
- [6] 时彦朋. Manipulating Optical Absorption of Indium Selenide Using Plasmonic Nanoparticles. ACS Omega, 3000, 2020.
- [7] 刘笑宇. Manipulating Optical Absorption of Indium Selenide Using Plasmonic Nanoparticles. ACS Omega, 5, 3000, 2020.
- [8] 张翼飞 , 宋爱民 , 时彦朋 , 王一鸣 , 冯华钰 , 辛倩 and 王卿璞. Tunable Surface Plasmon Polaritons with Monolithic Schottky Diodes. ACS Applied Electronic Materials, 2019.
- [9] 冯华钰 and Carolina de Dios. Analysis of the Optical Properties of Chiral Au Nanorod Stacks. Plasmonics, 2018.
- [10] 冯华钰. Analysis and magnetic modulation of chirooptical properties in anisotropic chiral and magneto-chiral plasmonic systems. Optics Express, 2017.
- [11] 冯华钰. Active magnetoplasmonic split-ring/ring nanoantennas. NANOSCALE, 2017.
- [12] 冯华钰 and Gaspar Armelles. Interaction Effects between Magnetic and Chiral Building Blocks: A New Route for Tunable Magneto-chiral Plasmonic Structures. ACS Photonics, 2015.
- [13] 冯华钰. From disk to ring: Aspect ratio control of the magnetoplasmonic response in Au/Co/Au nanostructures fabricated by hole-mask colloidal lithography. Applied physics letters, 2015.
- [14] 冯华钰. Magnetoplasmonic Nanorings as Novel Architectures with Tunable Magneto-optical Activity in Wide Wavelength Ranges. Advanced Optical Materials, 2014.
|