Lize Yu scite author profile

Lize Yu

4Publications

21Citation Statements Received

49Citation Statements Given

How they've been cited

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112

Affiliations

Tianjin University, Institute of Microelectronics

Publications

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Periodic Arrays of 3D AuNP‐Capped VO₂ Shells and Their Temperature‐Tunable SERS Performance

Liang

Xue

et al. 2022

Advanced Optical Materials

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In this work, periodic arrays of 3D composite structures consisting of gold nanoparticle (AuNP) capped VO2 shells on self‐assembled highly‐ordered SiO2 microspheres have been designed and fabricated, and their temperature‐tunable surface‐enhanced Raman scattering (SERS) performance is investigated. The results show that the SERS intensity enhancement factor (EF) for R6G molecules adsorbed on the AuNP‐capped VO2 shells increases from 8.3 × 105 to 3.9 × 106 when triggering the semiconductor‐to‐metal phase transition of VO2 by temperature rise, which strengthens the plasmonic coupling between the AuNPs and VO2 shells and consequently leads to a larger electric near‐field enhancement at the gaps between neighboring AuNPs. Such periodic arrays of AuNP‐capped VO2 shells with tunable plasmonic coupling can provide great opportunities for various optical applications, such as quantitative SERS detection of analytes, photothermal nano‐regulators, and biosensing in general.

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Bandwidth-tunable THz absorber based on diagonally distributed double-sized VO₂ disks

et al. 2021

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Terahertz absorbers combined with phase-changing V O 2 are a class of stealth materials with adjustable absorptance. However, such absorbers still suffer from insufficient absorption bandwidth. We propose a three-layer terahertz (THz) absorber, consisting of an array of diagonally distributed double-sized V O 2 disks on a silica-coated gold film. We find this structure can generate the superposition of three resonant absorption peaks to broaden the absorption band. The finite element simulation (FES) results show that the absorption bandwidth can be adjusted from 2.63 to 5.04 THz by simply changing the sizes of the V O 2 disks. In addition, the peak absorptance can be continuously regulated from 9.8% to 96% by varying the conductivity of V O 2 . Finally, the absorber is polarization-insensitive and has wide-angle absorption. The wide absorption band and adjustable bandwidth of the absorbers have important applications potentially for intelligent stealth materials.

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Enhancement of phase transition properties of ultrathin VO2 thin films on microsphere array by vacuum thermal pre-annealing

et al. 2023

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Stress Mapping of Silicon Surrounded by Various Through Silicon Via (TSV) Patterns using Polychromator-Based Multi-Wavelength Raman Spectroscopy

Trigg

Kuo

et al. 2010

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Lize Yu

Periodic Arrays of 3D AuNP‐Capped VO₂ Shells and Their Temperature‐Tunable SERS Performance

Bandwidth-tunable THz absorber based on diagonally distributed double-sized VO₂ disks

Enhancement of phase transition properties of ultrathin VO2 thin films on microsphere array by vacuum thermal pre-annealing

Stress Mapping of Silicon Surrounded by Various Through Silicon Via (TSV) Patterns using Polychromator-Based Multi-Wavelength Raman Spectroscopy

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Lize Yu

Periodic Arrays of 3D AuNP‐Capped VO2 Shells and Their Temperature‐Tunable SERS Performance

Bandwidth-tunable THz absorber based on diagonally distributed double-sized VO2 disks

Enhancement of phase transition properties of ultrathin VO2 thin films on microsphere array by vacuum thermal pre-annealing

Stress Mapping of Silicon Surrounded by Various Through Silicon Via (TSV) Patterns using Polychromator-Based Multi-Wavelength Raman Spectroscopy

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Product

Resources

About

Periodic Arrays of 3D AuNP‐Capped VO₂ Shells and Their Temperature‐Tunable SERS Performance

Bandwidth-tunable THz absorber based on diagonally distributed double-sized VO₂ disks