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SCI Journals |
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*43. |
Y. J. Chang, Y. H. Chien, C. C. Chang, P. N. Wang, Y. R. Chen*, and Y. C. Chang*, “Detection of femtomolar amyloid-beta peptides for early–stage identification of Alzheimer’s amyloid-? aggregation with functionalized gold nanoparticles”, ACS Applied Materials & Interfaces, 2024/01, 16(03), 3819–3828. |
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*42. |
C. C. Liu, H. H. Hsiao, Y. C. Chang*, “Nonlinear Two-photon Pumped Vortex Lasing Based on Quasi-Bound States in the Continuum from Perovskite Metasurface”, Science Advances, 2023/05, 9, eadf6649. |
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41. |
P. Y. Wu, Y. C. Chang, and C. B. Huang*, “Broadband plasmonic half-subtractor and digital demultiplexer in pure parallel connections”, Nanophotonics, 2022/09, 11(16), 3623-3629. |
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40. |
T. L. Shen, A. Loganathan, T. H. Do, C. M. Wu, Y. T. Chen, Z. J. Chen, N. C. Chiu, C. H. Shih, H. C. Wang, J. H. Chou, Y. Y. Hsu, C. C. Liu, Y. C. Chang, Y. S. Fu, W. C. Lai, P. Chen, T. C. Wen, and T. F. Guo*, “Characterize and Retard the Impact of the Bias-Induced Mobile Ions in CH3NH3PbBr3 Perovskite Light-Emitting Diodes”, Advanced Optical Materials, 2022/02, 10, 2101439. |
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39. |
C. Hanmandlu, M. Sahoo, C. C. Liu, H. A. Chen, C. W. Pao, Y. C. Chang, C. W. Chu*, and C. S. Lai*, “Few-Layer Fluorine-Functionalized Graphene Hole-Selective Contacts for Efficient Inverted Perovskite Solar Cells”, Chemical Engineering Journal, 2022/02, 430, 132831. |
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38. |
C. Y. Li, C. C. Liu, W. C. Lai, Y. -C. Lan*, and Y. C. Chang*, “Quantifying the Plasmonic Generation Rate of Non-Thermal Hot Carriers with an AlGaN/GaN High-Electron-Mobility Transistor”, Advanced Science, 2021/07, 8(13), 2100362. |
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37. |
C. Y. Lin, C. C. Liu, Y. Y. Chen, K. Y. Chiu, J. D. Wu, B. L. Lin, C. H. Wang, Y. F. Chen, S. -H. Chang*, and Y. C. Chang*, “Molecular chirality detection with periodic arrays of three-dimensional twisted metamaterials”, ACS Applied Materials & Interfaces, 2021/01, 11, 1152-1157. |
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36. |
T. Y. Chen, D. Tyagi, Y. C. Chang, C. B. Huang*, “A Polarization-Actuated Plasmonic Circulator”, Nano Letters, 2020/10, 20, 7543-7549. |
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35. |
Y. A. Lu, T. H. Chang, S. H. Wu, C. C. Liu, K. W. Lai, Y. C. Chang, Y. C. Chang, H. C. Lu*, C. W. Chu*, and K. C. Ho*, “Coral-like perovskite nanostructures for enhanced light-harvesting and accelerated charge extraction in perovskite solar cells”, Nano Energy, 2019/01, 58, 138-146. |
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34. |
C. Hanmandlu, C. C. Liu, C. Y. Chen, K. M. Boopathi, S. H. Wu, M. Singh, A. Mohapatra, H. W. Lin*, Y. C. Chang, Y. C. Chang, C. S. Lai* , and C. W. Chu*, “Top Illuminated Hysteresis-Free Perovskite Solar Cells Incorporating Microcavity Structures on Metal Electrodes: A Combined Experimental and Theoretical Approach”, ACS Applied Materials & Interfaces, 2018/05, 10(21), 17973–17984. |
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33. |
M. C. Chou, C. Y. Lin, B. L. Lin, C. H. Wang, S. -H. Chang, W. C. Lai, K. Y. Lai, and Y. C. Chang*, “Polarization-Selecting III-Nitride Elliptical Nanorod Light-Emitting Diodes Fabricated with Nanospherical-Lens Lithography”, ACS Nano, 2018/08, 12(08), 8748–8757. |
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32. |
Y. H. Chien, C. H. Wang, C. C. Liu, S. -H. Chang, K. V. Kong, and Y. C. Chang*,” Large-scale nanofabrication of designed nanostructures using Angled Nanospherical-Lens Lithography for Surface Enhanced Infrared Absorption Spectroscopy”, ACS Applied Materials & Interfaces, 2017/07, 9(29), 24917-24925. |
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31. |
P. Karuppuswamy, C. Hanmadlu, K. M. Boopathi, P. Perumal, C. C. Liu, Y.F. Chen, Y. C. Chang, P. C. Wang, C. S. Lai, C. W. Chu*,” Solution-processable electron transport layer for efficient hybrid perovskite solar cells beyond fullerenes”, Solar Energy Materials and Solar Cells, 2017/09, 169, 78-85. |
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30. |
Y. K. Chih, J. C. Wang, R. T. Yang, C. C. Liu, Y. C. Chang, Y. S. Fu, W. C. Lai, P. Chen, T. C. Wen, Y. C. Huang, C. S. Tsao, and T. F. Guo* ,” NiOx Electrode Interlayer and CH3NH2/CH3NH3PbBr3 Interface Treatment to Markedly Advance Hybrid Perovskite-Based Light-Emitting Diodes”, Advanced Materials, 2016/10, 28(39), 8687-8694. |
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29. |
K. P. Chiu, Y. C. Chang, C. Y. Lai, S. H. Chen, T. J. Wu, C. H. Wang, C. H. Chan, K. Y. Lo *,” Grating-Vector-Assisted Plasmonic Coupling in a Hexagonally Arranged Silver Island Array”, Plasmonics, 2015/10, 10(05) 1049-1056. |
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28. |
J. Y. Jeng, K. C. Chen, T. Y. Chiang, P. Y. Lin, T. D. Tsai, , Y. C. Chang, T. F. Guo*, P. Chen*, T. C. Wen, Y. J. Hsu, “Nickel Oxide Electrode Interlayer in CH3NH3PbI3 Perovskite/PCBM Planar-Heterojunction Hybrid Solar Cells”, Advanced Materials, 2014/06, 26(24), 4107-4113. |
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27. |
Y. C. Chang*, H. C. Chung, S. C. Lu, T. F. Guo, “Large-scale sub-100nm Au nanodisk array fabricated using Nanospherical-Lens Lithography: a low-cost localized surface plasmon resonance sensor”, Nanotechnology, 2013/03, 24(09), 095302. |
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26. |
Y. C. Chang*, S. C. Lu, H. C. Chung, S. M. Wang, T. D. Tsai, T. F. Guo, “High-Throughput Nanofabrication of Infra-red and Chiral Metamaterials using Nanospherical-Lens Lithography”, Scientific Reports, 2013/11, 3, 3339. |
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25. |
I. T. Chen, P. H. Chang, Y. C. Chang*, T. F. Guo*, “Lighting Up Ultraviolet Fluorescence From Chicken Albumen Through Plasmon Resonance Energy Transfer of Gold Nanoparticles”, Scientific Reports , 2013/03, 3, 1505. |
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24. |
Y. C. Chang*, C. B. Tseng, “Surface Plasmon-Enhanced Spontaneous Emission from InGaN/GaN multiple-quantum-wells by Indium nanoparticles fabricated using Nanosphere Lithography”, Plasmonics, 2013/09, 8(3), 1395-1400. |
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23. |
J. T. Chen, W. C. Lai*, Y. C. Chang, J. K. Sheu, and W. C. Sen, “GaN-based light emitting diodes with micro- and nano-patterned structures by femtosecond laser nonlinear decomposition”, Applied Physics Letters, 2012/09, 101(13), 131102. |
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22. |
Y. H. Liao, Y. J. Chang, Y. Yoshiike, Y. C. Chang*, Y. R. Chen*, “Negatively charged gold nanoparticles inhibit Alzheimer's amyloid-beta fibrillization, induce fibril dissociation, and mitigate neurotoxicity”, Small, 2012/12, 8(23), 3631-3639. |
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21. |
Y. C. Chang*, S. M. Wang, H. C. Chung, C. B. Tseng, S. –H. Chang, “Observation of Absorption-Dominated Bonding Dark Plasmon Mode from Metal-Insulator-Metal Nanodisk Arrays fabricated by Nanospherical-Lens Lithography”, ACS Nano, 2012/04, 6(4), 3390-3396. |
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20. |
C. L. Ni, H. P. Shi, H. M. Yu, Y. C. Chang, and Y. R. Chen*, “Folding Stability of Amyloid-b 40 Monomer is an Important Determinant of the Nucleation Kinetics in Fibrillization”, FASEB Journal, 2011/04, 25(4), 1390-1401. |
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19. |
Y. C. Chang*, S. M. Wang, H. C. Chung, C. B. Tseng, S. –H. Chang, “Large-Area Bowtie Nanoantenna Arrays Fabricated with Economic Oxygen Plasma-Assisted Nanosphere Lithography”, Plasmonics, 2011/09, 6, 599-604. |
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18. |
C. C. Tsai, P. L. Chiang, C. J. Sun, T. W. Lin, M. H. Tsai, Y. C. Chang*, and Y. T. ChenY, “Surface potential variations on a silicon nanowire transistor in biomolecular modification and detection”, Nanotechnology, 2011/04, 22, 135503. |
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17. |
Y. C. Chang* , “Effects of illumination on the excess carriers dynamics and variations of the surface charge states in an AlGaN/GaN heterostructure”, Journal of Applied Physics, 2010/02, 107, 033706. |
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16. |
Y. H. Su*, S. L. Tu, S. W. Tseng, Y. C. Chang, S. H. Chang, and W. M. Zhang, “Influence of Surface Plasmon Resonance on the Emission Intermittency of Photoluminescence from Gold Nano-sea-urchins”, Nanoscale, 2010/12, 02(12), 2639-2646. |
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15. |
Y. C. Chang*, J. K. Sheu, and Y. –L Li, “Sub-bandgap laser light-induced excess carrier transport between surface states and two-dimensional electron gas channel in AlGaN/GaN structure”, IEEE Journal of Quantum Electronics, 2010/01, 46, 112-115. |
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14. |
Y. C. Chang*, H. W. Chen, and S. H. Chang, “Enhanced near-field imaging contrasts of silver nanoparticles by localized surface plasmon”, IEEE Journal of Selected Topics in Quantum Electronics, 2008/11, 14, 1536-1539. |
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13. |
Y. -L. Li, W. C. Lai, and Y. C. Chang*, “Excess carrier dynamics of InGaN/GaN multiple-quantum-well light-emitting diodes with various silicon barrier doping profiles”, Applied Physics Letters, 2008/04, 92(15), 152109.
* Selected by Virtual Journal of Ultrafast Science, Vol. 7, Issue 5, May, 2008. |
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12. |
H. Y. Lee, K. H. Pan, C. C. Lin, Y. C. Chang, F. J. Kao, and C. T. Lee*, “Current spreading of III-nitride light-emitting diodes using plasma treatment”, Journal of Vacuum Science Technology B, 2007/07, 25(4), 1280-1283 |
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11. |
Y. C. Chang*, F. Y. Chou, P. H. Yeh, H. W. Chen, S. H. Chang, Y. C. Lan, T. F. Guo, T. C. Tsai, and C. T. Lee, “Effects of Surface Plasmon Resonant Scattering on the Power Conversion Efficiency of Organic Thin-Film Solar Cells”, Journal of Vacuum Science Technology B, 2007/11, 25, 1899-1902.
* Selected by Virtual Journal of Nanoscale Science & Technology, Vol. 16, Issue 23, December 3, 2007. |
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10. |
Y. C. Lan*, Y. C. Chang, and P. H. Lee, “Manipulation of Tunneling Frequencies Using Magnetic Fields for Resonant Tunneling Effects of Surface Plasmons”, Applied Physics Letters, 2007/04, 90(17), 171114 |
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9. |
Y. C. Chang*, Y. –L. Li, D. B. Thomson, and R. F. Davis, “Phonon-Assisted Stimulated Emission from Pendeo-Epitaxy GaN Stripes Grown on 6H-SiC Substrates”, Applied Physics Letters, 2007/07, 91, 051119.
* Selected by Virtual Journal of Nanoscale Science & Technology, Vol. 16, Issue 7, August 13, 2007. |
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8. |
Y. C. Chang*, Y. –L. Li, T. H. Lin, and J. K. Sheu, “Variations of Channel Conductance in AlGaN/GaN Structure with Sub-Bandgap Laser Light and Above-Bandgap Illuminations”, Japanese Journal of Applied Physics, 2007/06, 46, 3382-3384 |
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7. |
Y. C. Chang*, R. M. Kolbas, Z. J. Reitmeier, and R. F. Davis, “Effect of Thermal Annealing on the Metastable Optical Properties of GaN Thin Films”, Journal of Vacuum Science Technology A, 2006/07, 24, 1051-1054 |
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6. |
Y. C. Chang*, A. L. Cai, J. F. Muth, R. M. Kolbas, M. Park, J. J. Cuomo, A. Hanser, and J. Bumgarner, “Optical and structural studies of hydride vapor phase epitaxy grown GaN”, Journal of Vacuum Science Technology A, 2003/05, 21, 701-705 |
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5. |
Y. C. Chang, A. L. Cai, M. A. L. Johnson, J. F. Muth, R. M. Kolbas*, Z. J. Reitmeier, S. Einfeldt, and R. F. Davis, “Electron-beam-induced optical memory effects in GaN”, Applied Physics Letters, 2002/04, 80, 2675-2677 |
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4. |
M. Park*, J. P. Maria, J. J. Cuomo, Y. C. Chang, J. F. Muth, R. M. Kolbas, R. J. Nemanich, E. Carlson, and J. Bumgarner, “X-ray and Raman analyses of GaN produced by ultrahigh-rate magnetron sputter epitaxy”, Applied Physics Letters, 2002/09, 81, 1797-1799 |
* |
3. |
Y. C. Chang, A. E. Oberhofer, J. F. Muth, R. M. Kolbas*, and R. F. Davis, “Optical metastability of sub-bandgap (2.2eV) yellow luminescence in GaN”, Applied Physics Letters, 2001/07, 79, 281-283 |
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2. |
M. J. Bergmann*, U. Ozgur, H. C. Casey, Jr., J. F. Muth, Y. C. Chang, R. M. Kolbas, R. A. Rao, C. B. Eom, and M. Schurman, “Linear optical properties of a heavily Mg-doped Al[sub 0.09]Ga[sub 0.91]N epitaxial layer”, Applied Physics Letters, 1999/05, 74, 3188-3190 |
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1. |
Osinsky*, S. Gangopadhyay, J. W. Yang, R. Gaska, D. Kuksenkov, H. Temkin, I. K. Shmagin, Y. C. Chang, J. F. Muth, and R. M. Kolbas, “Visible-blind GaN Schottky barrier detectors grown on Si(111)”, Applied Physics Letters, 1998/02, 72, 551-553 |
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Book Chapter |
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1. |
Y. C. Chang*, “Lithography: Nanofabrication with Nanosphere Lithography” CRC Concise Encyclopedia of Nanotechnology, Chapter 36, 431-441?2015. (ISBN: 978-1-4665-8034-3) |
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Non-SCI Journals |
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| * |
2. |
張允崇*,「應用奈米球微影術及奈米球鏡微影術製作表面電漿子奈米結構」,台灣奈米會刊,31期,頁26-32,2012/12。 |
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1. |
黃于豪、張允崇、林俊宏*,「奈米壓印技術簡介」,電子月刊,152期,頁141-156,2008/03。 |
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News Letters |
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| * |
2. |
Y. C. Chang*, “High-throughput fabrication of planar chiral metamaterials”, SPIE Newroom, doi: 10.1117/2.1201407.005545 |
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1. |
J. S. Huang, H. C. Chung,Y. C. Chang*, “Controlled fabrication of photonic crystal in situ using nanospherical-lens lithography”, SPIE Newroom, doi: 10.1117/2.1201203.004163 |
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