Fei Cheng
University of Texas at Austin
35 Papers
95 Citations
Fei Cheng is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Thin film & Metamaterial. The author has an hindex of 14, co-authored 34 publications. Previous affiliations of Fei Cheng include University of Rochester & Missouri University of Science and Technology.
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Papers
Structural color printing based on plasmonic metasurfaces of perfect light absorption
TL;DR: A structural color printing method based on plasmonic metasurfaces of perfect light absorption of high quality factors to improve color performances such as saturation and brightness is demonstrated.
Direct Growth of Lateral ZnO Nanorod UV Photodetectors with Schottky Contact by a Single-Step Hydrothermal Reaction
Nishuang Liu,Guojia Fang,Wei Zeng,Hai Zhou,Fei Cheng,Qiao Zheng,Longyan Yuan,Xiao Zou,Xingzhong Zhao +8 more
TL;DR: In this paper, a zinc oxide (ZnO) nanorod metal-semiconductor-metal ultraviolet detectors with different metal contact were fabricated on glass substrate by a single-step hydrothermal reaction.
164
Aluminum plasmonic metamaterials for structural color printing.
TL;DR: A structural color printing platform based on aluminum plasmonic metamaterials supporting near perfect light absorption and narrow-band spectral response tunable across the visible spectrum to realize high-resolution, angle-insensitive color printing with high color purity and saturation is reported.
125
Epitaxial Growth of Atomically Smooth Aluminum on Silicon and Its Intrinsic Optical Properties
TL;DR: The successful development of atomically smooth epitaxial Al films on silicon facilitate the creation of fine plasmonic nanostructures and demonstrate considerable loss reduction in the UV frequency range, in comparison to the polycrystalline Al films based on spectroscopic ellipsometry measurements.
88
Ultrasensitive detection and characterization of molecules with infrared plasmonic metamaterials
Fei Cheng,Xiaodong Yang,Jie Gao +2 more
TL;DR: Investigation of ultrasensitive detection and characterization of polymer molecules based on an asymmetric infrared plasmonic metamaterial sensing platform offers great potential for improving the specificity and sensitivity of label-free, biochemical detection.