Haifeng Hu scite author profile

Haifeng Hu

4Publications

13Citation Statements Received

84Citation Statements Given

How they've been cited

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174

Affiliations

University of Chinese Academy of Sciences, National Center for Nanoscience and Technology, Center for NanoScience

Publications

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Dielectric Walls/Layers Modulated 3D Periodically Structured SERS Chips: Design, Batch Fabrication, and Applications

Tian

Chen

et al. 2022

Advanced Science

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As an indispensable constituent of plasmonic materials/dielectrics for surface enhanced Raman scattering (SERS) effects, dielectrics play a key role in excitation and transmission of surface plasmons which however remain more elusive relative to plasmonic materials. Herein, different roles of vertical dielectric walls, and horizontal and vertical dielectric layers in SERS via 3D periodic plasmonic materials/dielectrics structures are studied. Surface plasmon polariton (SPP) interferences can be maximized within dielectric walls besieged by plasmonic layers at the wall thicknesses of integral multiple half-SPP plasmonic material-dielectric -wavelength which effectively excites localized surface plasmon resonance to improve SERS effects by one order of magnitude compared to roughness and/or nanogaps only. The introduction of extra Au nanoparticles on thin dielectric layers can further enhance SERS effects only slightly. Thus, the designed Au/SiO 2 based SERS chips show an enhancement factor of 8.9 × 10 10 , 265 times higher relative to the chips with far thinner SiO 2 walls. As many as 1200 chips are batch fabricated for a 4 in wafer using cost-effective nanoimprint lithography which can detect trace Hg ions as low as 1 ppt. This study demonstrates a complete generalized platform from design to low-cost batch-fabrication to applications for novel high performance SERS chips of any plasmonic materials/dielectrics.

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Spatial-temporal Coupling Analysis of Economic Development-Social Development-Government Governance in Xinjiang, China

Sun

Zhao

et al. 2023

Chin. Geogr. Sci.

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Generating Ultralong-Superoscillation Nondiffracting Beams with Full Control of the Intensity Profile

et al. 2023

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Superoscillation focusing with suppressed sidebands by destructive interference

Zhang

Dong

Yan³

et al. 2022

Opt. Express

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Optical superoscillation, a phenomenon that the local optical field can oscillate much faster than that allowed by its highest harmonic, can significantly overcome the Abbe diffraction limit. However, as the spot size is compressed below the superoscillation criteria of 0.38λ/NA, huge sidebands will inevitably appear around the central lobe with intensity hundreds of times higher than that of the central lobe. Here, we propose an approach to realize superoscillation by using destructive interference. The central lobe size can be compressed beyond the superoscillation criteria without formation of strong sidebands by destructive interference between focused fields. Such a super-resolution metalens can find its application in label-free far-field super-resolution microscopy.

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Haifeng Hu

Dielectric Walls/Layers Modulated 3D Periodically Structured SERS Chips: Design, Batch Fabrication, and Applications

Spatial-temporal Coupling Analysis of Economic Development-Social Development-Government Governance in Xinjiang, China

Generating Ultralong-Superoscillation Nondiffracting Beams with Full Control of the Intensity Profile

Superoscillation focusing with suppressed sidebands by destructive interference

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