Associate professor: Zhengji Wen
Laboratory of Thin Film Optics,
Key Laboratory of Materials for High Power Laser,
Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences
Address: 390 Qinghe Road, Shanghai, China
Postcode: 201800
Email address: wenzhengji@siom.ac.cn
Research Areas
Metamaterials, Metasurfaces, Thin films, Infrared physics, Infrared technology
Publications
Papers
[1] X. Zhang, Z. Wen*, An Angle-and Polarization-selective Dual-wavelength Narrowband Thermal Emitter for Infrared Multilevel Encryption. Research (2025).
[2] Z. Wen#*, et.al., Polarization-sensitive long-wavelength infrared narrowband thermal emitter for anticounterfeiting. ACS Applied Optical Materials 3, 764 (2025).
[3] Z. Chen#, Z. Wen#*, et.al., Inverse-designed Broadband Ultrathin Aperiodic Metacoatings Spanning from Deep Ultraviolet to Near Infrared. Laser & Photonics Reviews 19, 2301378 (2025).
[4] C. Tan#, Z. Wen#, et.al., Deep-subwavelength multilayered meta-coatings for visible-infrared compatible camouflage. Nanophotonics 13, 2391 (2024).
[5] X. Li#, Z. Wen#, et.al., Inverse Design of Refractory Mid-Wave Infrared Narrowband Thermal Emitters for Optical Gas Sensing. Cell Reports Physical Science 4, 101687 (2023).
[6] Q. Xu, Z. Wen*, et.al., Ultra-thin Midwavelength Infrared Absorber Using Bismuth based Planar Thin Film Metamaterials. Applied Physics Express 15, 082005 (2022).
[7] J. Zhang, Z. Wen*, et.al., Long-wavelength infrared selective emitter for thermal infrared camouflage under a hot environment. Optics Express 30, 24132-24144 (2022).
[8] Z. Wen, et.al., Subwavelength thin-film stack metamaterials: theory and applications. Journal of Infrared and Millimeter Waves 41, 151 (2022).
[9] Z. Wen, et.al., Dynamically reconfigurable subwavelength optical device for hydrogen sulfide gas sensing. Photonics Research 9, 2060 (2021).
[10] Z. Wen, et.al., Nonlocal effective-medium theory for periodic multilayered metamaterials. Journal of Optics 23, 065103 (2021).
[11] W. Zhao#, Z. Wen#, et.al., Remarkable photoluminescence enhancement of CsPbBr3 perovskite quantum dots assisted by metallic thin films. Nanophotonics 10, 2257-2264 (2021).
[12] H. Pan#, Z. Wen#, et.al., Wide gamut, angle-insensitive structural colors based on deep-subwavelength bilayer media. Nanophotonics 9, 3385-3392 (2020).
[13] X. Liu#, Z. Li#, Z. Wen#, et.al., Large-area, lithography-free, narrow-band and highly directional thermal emitter. Nanoscale 11, 19742-19750 (2019).