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[1]
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A. Syazwan A. Kamal, C. C. Lin, Z. Wang, D. Xing, Y. C. Lee, M. H. Chen, Y. L. Ho, C. W. Chen, J. J. Delaunay, “CsPbBr3 nanocrystals plasmonic distributed Bragg reflector waveguide nanolaser.” Applied Physics Letters, 2023, 122, 071104. |
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[2]
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M. H. Chen, D. Xing, V. C. Su, Y. C. Lee, Y. L. Ho, J. J. Delaunay, “GaN-based bound state in the continuum lasers in the ultraviolet region.” Advanced Optical Materials, 2023, 11, 2201906. |
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[3]
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D. Xing, C. C. Lin, Y. L. Ho, Y. C. Lee, M. H. Chen, B. W. Lin, C. W. Chen, J. J. Delaunay, “Ligand engineering and recrystallization of perovskite quantum-dot thin film for low-threshold plasmonic lattice laser.” Small, 2022, 2204070, doi: 10.1002/small.202204070. |
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[4]
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Y. C. Tseng, S. W. Chang, Y. C. Lee, H. L. Chen, “Cavity-enhanced magnetic dipole resonance induced hot luminescence from hundred-nanometer-sized silicon spheres.” Nanophotonics, 2022, 11(16), 3583–3593. |
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[5]
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H. C. Lin#, Y. C. Lee#, C. C. Lin, Y. L. Ho, D. Xing, M. H. Chen, B. W. Lin, L. Y. Chen, C. W. Chen, J. J. Delaunay, “Integration of on-chip perovskite nanocrystal laser and long-range surface plasmon polariton waveguide with etching-free process.” Nanoscale, 2022, 14, 10075–10081. |
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[6]
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B. W. Lin, Y. H. Tai, Y. C. Lee, D. Xing, H. C. Lin, H. Yamahara, Y. L. Ho, H. Tabata, H. Daiguji, J. J. Delaunay, “Aluminum-black silicon plasmonic nano-eggs structure for deep-UV surface-enhanced resonance Raman spectroscopy.” Applied Physics Letters, 2022, 120, 051102. |
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[7]
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Y. C. Lee, S. W. Chang, S. H. Chen, S. L. Chen, H. L. Chen, “Optical inspection of 2D materials: From mechanical exfoliation to wafer-scale growth and beyond.” Advanced Science, 2022, 9, 2102128. |
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[8]
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A. Syazwan A. Kamal, C. C. Lin, D. Xing, Y. C. Lee, Z. Wang, M. H. Chen, Y. L. Ho, C. W. Chen, J. J. Delaunay, “Lithographic in-mold patterning for CsPbBr3 nanocrystals distributed Bragg reflector single-mode laser” Nanoscale, 2021, 13, 15830–15836. |
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[9]
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D. Xing, C. C. Lin, P. Won, R. Xiang, T. P. Chen, A. Syazwan A. Kamal, Y. C. Lee, Y. L. Ho, S. Maruyama, S. H. Ko, C. W. Chen, J. J. Delaunay, “Metallic Nanowire Coupled CsPbBr3 Quantum Dots Plasmonic Nanolaser” Advanced Functional Materials, 2021, 31, 2102375. |
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[10]
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S. L. Chen, C. C. Yu, S. W. Chang, Y. C. Lee, H. L. Chen, “Optimization and simulation of a carbon nanotube arrangement for transparent conductive electrodes with record-high direct current to optical conductive ratios” Optical Materials Express, 2021, 11, 1205–1217. |
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[11]
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A. Y. Sun, Y. C. Lee, S. W. Chang, S. L. Chen, H. C. Wang, D. Wan, H. L. Chen, “Diverse Substrate-Mediated Local Electric Field Enhancement of Metal Nanoparticles for Nanogap-Enhanced Raman Scattering” Analytical Chemistry, 2021, 93, 4299–4307. |
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[12]
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C. Z. Deng, Y. L. Ho, Y. C. Lee, Z. Wang, Y. H. Tai, M. Zyskowski, H. Daiguji, J. J. Delaunay, “Two-pair multilayer Bloch surface wave platform in the near- and mid-infrared regions,” Applied Physics Letters, 2019, 115, 091102. |
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[13]
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T. Y. Lin, Y. C. Lee, Y. W. Lee, S. W. Chang, D. L. Ma, B. C. Lin, H. L. Chen, “Air gap-based cavities dramatically enhance the true intrinsic spectral signals of suspended and pristine two-dimensional materials” The Journal of Physical Chemistry C, 2019, 123, 5667–5679. |
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[14]
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S. J. Kuo, P. C. Tsai, Y. C. Lee, S. W. Chang, S. Sotoma, C. Y. Fang, H. C. Chang, H. L. Chen, “Manipulating the distribution of electric field intensity to effectively enhance the spatial and spectral fluorescence intensity of fluorescent nanodiamons,” Nanoscale, 2018, 10, No. 37, 17576–17584. |
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[15]
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Y. C. Tseng, Y. C. Lee, T. Y. Lin, H. L. Chen, “Magnetic dipole resonance and coupling effects directly enhance the Raman signals of as-grown graphene on copper foil by over a hundredfold.” Chemistry of Materials, 2018, 30, 1472–1483. |
