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。
• 2025年度:
期刊论文:
[1] Jiaqi Zhu, Youning Gong, Jun Liang, Yanyu Zhao, Zhe Cui, Delong Li, Qingdong Ou, Yupeng Zhang, Guo Ping Wang, Multiple Hyperbolic Dispersion Branches and Broadband Canalization in a Phonon-Polaritonic Heterostructure, Nano Letters 25, 2610 (2025).
[2] Delong Li, Mengting Zhou, Youning Gong, Wenyu Zhao, Haoliang Sun, Jian Tang, Yupeng Zhang, Guo Ping Wang, 1D Van Der Waals Superlattices for Polarization-Sensitive Photodetectors, Advanced Materials 37, 2508035 (2025).
[3] Haosen Zhang, Kedi Wu, and Guo Ping Wang, Merging bound states in the continuum for ultrahigh- Q near-perfect absorption in all-dielectric gratings, Physical Review B 111, 115430 (2025).
[4] Haosen Zhang, Kedi Wu, and Guo Ping Wang, Symmetry-broken dielectric metasurfaces for high-Q circular dichroic absorption based on quasibound states in the continuum, Physical Review B 112, 155432 (2025).
[5] Kun Gao, Jiaqi Zhang, Kuai Yu, Guo Ping Wang, Size-dependent localized acoustic vibrations in MoS2 thin film with patterned nanohole arrays, Applied Physics Letters 126, 202206 (2025).
[6] Jiaqi Zhang, Kuai Yu, Guo Ping Wang, Coherent Acoustic Phonon Dynamics and Coupling in Metal-van der Waals Heterostructure Nanocavities, ACS Nano 19, 10093 (2025).
[7] Puang Li, Lei Sun, and Guo Ping Wang, Various dual-polarization Dirac-like cones in a two-phase photonic crystal with a simple square lattice, Physical Review B 112, 075425 (2025).
[8] Zhen Yu Zhang and Guo Ping Wang, High-Anisotropic Flexible Photodetector Based on Centimeter-Sized Cs3Bi2I9 Single-Crystal Sheet, Advanced Optical Materials 27,2501263 (2025).
[9] Zhen Yu Zhang and Guo Ping Wang, Laser-Direct-Written Surface Structure on a MAPbI3 Single-Crystal Sheet to Enhance Near-Infrared Photodetection Performance, ACS Applied Electronic Materials 7, 3571 (2025).
[10] Ruo-Yang Zhang, Xiaohan Cui, Yuan-Song Zeng, Jin Chen, Wenzhe Liu, Mudi Wang, Dongyang Wang, Zhao-Qing Zhang, Neng Wang, Geng-Bo Wu, and C. T. Chan, Bulk-spatiotemporal vortex correspondence in gyromagnetic zero-index media, Nature 641, 1142 (2025).
[11] Zhenyang Cui#, Youning Gong#, Wenzhi Yu, Sihao Xia, Zhiwei He, Xingyu Tang, Bin Zheng, Huaping Wang, Weiliang Ma, Yupeng Zhang, Hongsheng Chen, Yingjie Wu, A lithography-free approach to polaritonic Luneburg lenses, Nature Communications 16, 7750 (2025).
• 2024年度:
期刊论文:
[1] Kuai Yu and Guo Ping Wang, Coherent Acoustic Vibrational Spectrum of Single and Coupled Nanoresonators, J. Phys. Chem. C 128, 5394-5409 (2024).
[2] Yachao Liu, Mingwei Wang, Yongqing Huang, Guo Ping Wang, and Shuang Zhang, Continuous evolution of Fermi arcs in a minimal ideal photonic Weyl medium, Light: Science & Applications 13, 276 (2024).
[3] Neng Wang, Jack Ng, and Guo Ping Wang, Morphology-independent general-purpose optical surface tractor beam, Nature Commun. 15, 6836 (2024).
[4] Kedi Wu , Neng Wang, and Guo Ping Wang, Enabling superresolution detection via dispersion-induced time diffraction of evanescent waves, Phys. Rev. B 110, 195436 (2024).
[5] Fanghu Feng, Neng Wang, and Guo Ping Wang, Temporal transfer matrix method for Lorentzian dispersive time-varying media, Appl. Phys. Lett. 124, 101701 (2024).
[6] Fanghu Feng, Neng Wang, and Guo Ping Wang, Temporal transfer matrix method for Lorentzian dispersive time-varying media, Appl. Phys. Lett. 124, 101701 (2024).
[7] Jun Liang, Jiaqi Zhu, Yanyu Zhao, Siyu Wang, Youning Gong, Yupeng Zhang, and Guo Ping Wang, Manipulation of In-Plane Hyperbolic Phonon Polaritons for Configurable Focusing. ACS Photon. 11, 5031-5038(2024).
[8] Youning Gong, Jiaqi Zhu, Yanyu Zhao, Junrong Zhang, Tao Hou, Shan Zhu, Zhichao Zhou, Jun Liang, Delong Li, Kedi Wu, Huanyang Chen, Kai Zhang, Qiaoliang Bao, Yupeng Zhang, and Guo Ping Wang, Dispersion Engineering of In-Plane Anisotropic Phonon Polaritons in hBN/Te van der Waals Heterostructures. Adv. Opt. Mater. 12, 2302804 (2024).
[9] Zhen Yu Zhang and Guo Ping Wang, Flexible Single-Crystal Perovskite Photodetectors via PolymerControlled Transfer. ACS Appl. Mater. Interfaces 16, 48320−48328 (2024).
[10] Zhen Yu Zhang and Guo Ping Wang, Luminescence Patterns on Multmillimeter Single-Crystal MAPbBr3 Microplatelets via Thermal Ablation Effects. ACS Appl. Mater. Interfaces 16, 64353−64363 (2024).
[11] Yungao Chen, Kuai Yu, Yongli Yan, and Guo Ping Wang, Quantitative Complex Refractive Index Changes in Thin Films: A Pump−Probe Spectroscopy Analysis Approach. J. Phys. Chem. Lett. 15, 6467−6475 (2024).
[12] Wenbo Liu, Kai Wang, Guo Ping Wang, and Xiao Wei Sun, On-Shelf and Operational Decay Dynamics of Self-Healing Quasi Two-Dimensional Perovskite Light-Emitting Devices. J. Phys. Chem. Lett. 15, 2039−2048 (2024).
[13] Yuqing Ding, Qianzhen Rao, Kin Wah Yu, Lei Sun, and Guo Ping Wang, Precise one-to-one equivalent nanocircuit models for layered metamaterials. New J. Phys. 26, 013038 (2024).
[14] Neng Wang, Binbin Hong, and Guo Ping Wang, Higher-order exceptional points and enhanced polarization sensitivity in anisotropic photonic time-Floquet crystals. Optics Express 32, 40092 (2024).
[15] Xinxin Fan, Haosen Zhang, Kedi Wu, and Guo Ping Wang, Broadband spin-dependent anti-reflection in chiral time-varying metamaterials. Optics Express 32, 41335 (2024).
[16] Haosen Zhang, Kedi Wu, and Guo Ping Wang, Near-perfect absorption of a honeycomb metasurface through QBICs. Optics Letters 49, 1692 (2024).
[17] Haosen Zhang, Kedi Wu, and Guo Ping Wang, Dual-band high-Q near-perfect absorption by tilted Si-assisted metasurfaces. Optics Letters 49, 3428 (2024).
[18] Haosen Zhang, Guo Ping Wang, and Kedi Wu, Magneto-optical metasurfaces for high-Q perfect absorption with quasi-bound states in the continuum. Optics Letters 49, 4654 (2024).
[19] Neng Wang, Fanghu Feng, and Guo Ping Wang, Achieving bi-anisotropic coupling through uniform temporal modulations without inversion symmetry disruption. Optics Letters 49, 2493 (2024).
• 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).
