在所有成员的共同努力下,本团队自2015年成立起至今,取得了丰硕的成果。以下仅展示了近三年来我们取得的部分成果。详细信息,请点击相应年份的链接按钮。
• 2023年度:
期刊论文:
[1] Y. Qiu, K. Meng, W. Wang, J. Chen, J. Cunningham, I. Robertson, B. Hong*, and G. P. Wang*, Efficient free-space to on-chip coupling of THz-bandwidth pulses for biomolecule fingerprint sensing, Optics Express 31, 2373 (2023) (Selected for an Editor's Pick).
[2] H. Song, B. Hong, N. Wang, and G. P. Wang*, Kerker-type positional disorder immune metasurfaces, Optics Express 31, 24243 (2023).
[3] K. Wu and G. P. Wang*, Optical analogy for temporal diffraction intight-binding lattice, Optics Letters 48, 4265 (2023).
[4] F. Feng, N. Wang*, and G. P. Wang*, Lorentzian dispersive antirefection temporal coatings with multiple time durations, Optics Letters 48, 4328 (2023).
[5] N. Wang and G. P. Wang*, Broadband frequency translation by space–time interface with weak permittivity temporal change, Optics Letters 48, 4436 (2023).
[6] K. Yu, Y. Jiang, Y. Chen, X. Hu, J. Chang, G. V. Hartland, and G. P. Wang*, Compressible viscoelasticity of cell membranes determined by gigahertz-frequency acoustic vibrations, Photoacoustics 31, 100494(2023).
[7] K. Wu, H. Zhang, and G. P. Wang*, Polarization-independent high-Q monolayer Ge-assisted near-perfect absorberthrough quasibound states in the continuum, Physical Review B 108, 085412 (2023).
[8] W. Wang, H. Xing, X. Shu, X. Zhao, X. Yan, B. Hong, L. Sun, W. Zhang*, and G. P. Wang*, Cooling colors below the ambient temperature, Optica 10, 1059 (2023) (Highlighted by New Scientist, Phys.org, Opt. Photon. News, etc.).
[9] Z. Y. Zhang, Y. P. Zhang, B. B. Hong*, and G. P. Wang*, Optical waveguide in curved and welded perovskite nanowires, Science China Technological Sciences 66, 1471 (2023).
[10] Z. Y. Zhang, and G. P. Wang*, Resonant coherent acoustic oscillation in nanoscale ruddlesden–popper perovskite films, Advanced Functional Materials 33, 2214542 (2023).
[11] Z. Y. Zhang, L. Sun, and G. P. Wang*, Lateral perovskite single-crystal capacitors for self-powered photodetection, Advanced Electronic Materials 9, 2201318 (2023).
• 2022年度:
期刊论文:
[1] Y. Zhao, Y. Gong, J. Zhu, D. Li, H. Mao, Q. Bao, Y. Zhang*, and G. P. Wang, Birefringence in the polarized Raman scattering of biaxial van der Waals α-MoO3 , Advanced Optical Materials 10, 2201528 (2022).
[2] Z. Y. Zhang and G. P. Wang*,Illumination-dependent photoelectric anisotropy in Cs3Bi2I9 single crystal sheets, Advanced Optical Materials 11,2201723 (2022).
[3] Y. Gong, Y. Zhao, Z. Zhou, D. Li, H. Mao, Q. Bao, Y. Zhang*, and G. P. Wang, Polarized Raman scattering of in-plane anisotropic phonon modes in α-MoO3 , Advanced Optical Materials 10, 2200038 (2022).
[4] Z. Y. Zhang, L. Sun, and G. P. Wang*, Lateral perovskite single-crystal capacitors for self-powered photodetection, Advanced Electronic Materials 9, 2201318 (2023).
[5] Z. Y. Zhang and G. P. Wang*, n-involved optimization of out-of-plane optoelectronic performances in nanoscale ruddlesden–popper perovskite, Advanced Electronic Materials 9, 2200893 (2022).
[6] Y. Sun, R. Pan, Y. Chen, Y. Wang, L. Sun, N. Wang, X. Ma*, and G. P. Wang*, Efficient preparation of a magnetic helical carbon nanomotor for targeted anticancer drug delivery, ACS Nanoscience Au 3, 94 (2022) (Cover story).
[7] N. Wang, R.-Y. Zhang*, Q. Guo, S. Wang, G. P. Wang, and C. T. Chan, Optical pulling using topologically protected one way transport surface-arc waves, Physical Review B 105, 014104 (2022).
[8] D. Yang, F. Feng, L. Sun, N. Wang*, and G. P. Wang*, Realization of magneto-optical near-zero-index metamaterial by using an array of spinning cylinders, Physical Review A 105, 043517 (2022).
[9] F. Feng, N. Wang*, and G. P. Wang*, Magneto-optical double zero-index media and their electromagnetic properties in the bulk, New Journal of Physics 24, 113023 (2022).
[10] L. Sun, Y. Lin, K. W. Yu, and G. P. Wang*, All-angle broadband ENZ metamaterials, New Journal of Physics 24, 073016 (2022).
[11] Y. Liu, G. P. Wang*, J. B. Pendry*, and S. Zhang*, All-angle reflectionless negative refraction with ideal photonic Weyl metamaterials, Light: Science Applications 11, 276 (2022).
[12] H. Song, B. Hong*, Y. Qiu, K. Yu, J. Pei, and G. P. Wang*, Tunable bilayer dielectric metasurface via stacking magnetic mirrors, Optics Express 30, 22885 (2022).
[13] K. Wu, B., Hong, Y. Qiu, J. Zhu, N. Wang, and G. P. Wang*, Observation of optical precursors in free space, Journal of the Optical Society of America B 39 1902 (2022).
[14] D. Li, J. Tan, H. Qu, Y. Li, Y. Gong, S. Zhang, H. Mao, Q. Bao, Y. Zhang*, and G. P. Wang, Tunable photoresponse in twisted lead iodide homostructures via exciton-phonon coupling, Matter 5, 3452 (2022).
[15] B. Hong, L. Sun, W. Wang, N. Feng, D. Su, Y. Qiu, N. Somjit, I. Robertson, and G. P. Wang*, Five-channel frequency-division multiplexing using low-loss epsilon-near-zero metamaterial waveguide, Science China: Physics, Mechanics Astronomy 65, 274211 (2022).
[16] J. Chen, J. Yang, W. Chen*, Y. Wang, G. Song, H. He, H. Wang, P. Li*, and G. P. Wang*, Tri-functional SERS nanoplatform with tunable plasmonic property for synergistic antibacterial activity and antibacterial process monitoring, Journal of Colloid and Interface Science 608, 2266 (2022).
• 2021年度:
期刊论文:
[1] Y. Liu, G. P. Wang*, S. Zhang*, A nonlocal effective medium description of topological weyl metamaterials, Laser & Photonics Reviews 15, 2100129 (2021).
[2] J. Wang, J. Zhu, Y. Jiang, M. Li, K. Yu*, G. P. Wang*, Observation of elastic heterogeneity and phase evolution in 2D layered perovskites using coherent acoustic phonons, Nanophotonics 10, 4009 (2021).
[3] W. Wang, X. Yan, Q. Zou, B. Hong, W. Zhang, and G. P. Wang*, A bioinspired switchable selective infrared solar absorber by tunable optical coupling, Journal of Materials Chemistry C 9, 4150 (2021).
[4] K. Yu, Y. Yang, J. Wang, G. V. Hartland*, and G. P. Wang*, Nanoparticle–fluid interactions at ultrahigh acoustic vibration frequencies studied by femtosecond time-resolved microscopy, ACS Nano 15, 1833 (2021).
[5] N. Muhammad, Y. Chen, C.-W. Qiu*, and G. P. Wang*, Optical bound states in continuum in MoS2-based metasurface for directional light emission, Nano Letters 21, 967 (2021).
[6] N. Muhammad and G. P. Wang*, Refractive index sensing and switching of leaky states in a metasurface, Optics Letters 46, 5120 (2021).
[7] N. Wang, R. Zhang, S. Wang, G. P. Wang*, C. T. Chan*, Optical forces on a cylinder induced by surface waves and the conservation of the canonical momentum of light, Optics Express 29, 20590 (2021).
[8] N. Wang and G. P. Wang*, One-dimensional time-floquet photonic crystals, New Journal of Physics 23, 103023 (2021).
