(A)　期刊論文

a. SCI 期刊論文 (*為通訊作者) 共計 71 篇

1. N. R. Sabaruddin, Y. M. Tan, S.-H. Chen, C.-T. Chou Chao, C. M. Lim, R. Thotagamuge, M. R. R. Kooh*, Y.-F. Chou Chau*, 2024, Feb., “Designing a broadband terahertz metamaterial absorber through bi-layer hybridization of metal and graphene,” Plasmonics, published online.(2022 IF=3.0, Rank [MATERIALS SCIENCE, MULTIDISCIPLINARY]=195/342=57.02%)
2. S.-H. Chen, J.-K. Fang, C.-H. Du, M.-H. Shih, H.-C. Liang*, H.-P. Chiang*, 2024, Apr., “Enhanced photoluminescence of DCJTB by silver nanohole arrays with ring-shaped silver nanoparticles over hyperbolic metamaterials,” Opt. Mater. 150, 115174. (2022 IF=3.9, Rank [OPTICS]=28/100=28.00%)
3. C.-L. Huang, K.-M. Chen, B.-Y. Lu, S.-H. Chen*, 2023, Dec., “Improved performance of polymer light-emitting diodes using graphene oxide doped with silver nanoparticles as the hole-transport layer,” Results Phys. 55, 107190. (2022 IF=5.3, Rank [PHYSICS, MULTIDISCIPLINARY]=18/85=21.18%)
4. C. H. Chu, G. Y. Lin, P. C. Wu, W.-Y. Chou, S.-H. Chen, H.-C. Liange*, H.-P. Chiang*, 2023, Dec., “Enhanced optical sensing with metal-insulator-metal nanohole arrays integrated with silver nanoparticles,” Results Phys. 55, 107203. (2022 IF=5.3, Rank [PHYSICS, MULTIDISCIPLINARY]=18/85=21.18%)
5. C.-T. Chou Chao, S.-H. Chen, H. J. Huang, Y.-F. Chou Chau*, 2023, Aug., “Near- and mid- infrared quintuple-band plasmonic metamaterial absorber,” Plasmonics 18, 1581-1591. (2022 IF=3.0, Rank [MATERIALS SCIENCE, MULTIDISCIPLINARY]=195/342=57.02%)
6. S.-H. Chen, W.-J. Hsieh, Y.-W. Hong, H. J. Huang, L.-M. Chiang, T. S. Kao, M.-H. Shih, H.-P. Chiang*, 2023, Jul., “Gold nanohole arrays with ring-shaped silver nanoparticles for highly efficient plasmon-enhanced fluorescence,” Results Phys. 51, 106740. (2022 IF=5.3, Rank [PHYSICS, MULTIDISCIPLINARY]=18/85=21.18%)
7. S.-H. Chen*,Y.-W. Hong, Y.-F. Chou Chau, H. J. Huang, H.-P. Chiang, 2023, Jun., “Enhancement of luminous efficacy of polymer light-emitting diodes with silver-nanoparticles by oxygen-plasma treatment,” Microsc. Res. Techniq., 86(6), pp. 725-730. (2022 IF=2.5, Rank [ANATOMY & MORPHOLOGY]=5/20=25.00%)
8. C.-T. Chou Chao, S.-H. Chen, H. J. Huang, M. R. R. Kooh, C. M. Lim, R. Thotagamuge, A. H. Mahadi, Y.-F. Chou Chau*, 2023, May, “Improving temperature sensing performance of photonic crystal fiber via external metal-coated trapezoidal-shaped surface,” Crystals, 13(5), 813. (2021 IF=2.670, Rank [CRYSTALLOGRAPHY]=12/26= 46.15%)
9. S.-H. Chen*,Y.-T. Wu, S.-H. Hsiao, C. Tseng, 2022, Jul., “Silver‐doped nickel oxide as an efficient hole‐transport layer in polymer light‐emitting diodes,” Microsc. Res. Techniq., 85(7), pp. 2390-2396. (2022 IF=2.5, Rank [ANATOMY & MORPHOLOGY]=5/20=25.00%)
10. Y.-R. Li, K.-L. Lee, K.-M. Chen, Y. C. Lu, P. C. Wu, S.-H. Chen, J.-H Lee*, P.-K. Wei*, 2022, Jun., “Direct detection of virus-like particles using color images of plasmonic nanostructures,” Opt. Express 30(12), 22233-22246. (2022 IF=3.8, Rank [OPTICS]=30/100=30.00%)
11. P.-C. Kao*, C.-J. Hsu, Z.-H. Chen, S.-H. Chen, 2022, Jun., “Highly transparent and conductive MoO3/Ag/MoO3 multilayer films via air annealing of the MoO3 layer for ITO-free organic solar cells,” J. Alloy. Compd. 906, 164387. (2022 IF=6.2, Rank [METALLURGY & METALLURGICAL ENGINEERING]=8/78=10.26%)
12. S.-H. Chen*, P.-J. Hsu, 2021, Dec., “Luminous efficiency improvement of polymer light-emitting diodes with platinum nanolayer at the PEDOT:PSS–ITO interface,” Opt. Lett. 46(24), pp. 6039-6042. (2022 IF=3.6, Rank [OPTICS]=31/100=31.00%)
13. C.-L Huang, H. J. Huang, S.-H. Chen*, Y.-S. Huang, P.-C. Kao, Y.-F. Chou Chau, H.-P. Chiang, 2021, Nov., "Localized surface plasmon resonance enhanced by the light-scattering property of silver nanoparticles for improved luminescence of polymer light-emitting diodes," J. Ind. Eng. Chem. 103, pp. 283-291. (2022 IF=6.1, Rank [ENGINEERING, CHEMICAL]=23/140=16.43%)
14. C.-T. Chou Chao, Y.-F. Chou Chau*, S.-H. Chen, H. J. Huang, C. M. Lim, M. R. R. Kooh, R. Thotagamuge, H.-P. Chiang*, 2021, Nov., “Ultrahigh sensitivity of a plasmonic pressure sensor with a compact size,” Nanomaterials 11, 3147. (2022 IF=5.3, Rank [CHEMISTRY, MULTIDISCIPLINARY]=58/178=32.58%)
15. Y.-F. Chou Chau*, C.-T. Chou Chao, H. J. Huang, S.-H. Chen, T. S. Kao*, H.-P. Chiang*, 2021, Nov., "A multichannel color filter with the functions of optical sensor and switch," Sci. Rep. 11, 22910. (2022 IF=4.6, Rank [MULTIDISCIPLINARY SCIENCES]=22/73=30.14%)
16. S.-H. Chen*, Y.-C. Tu, D.-R. Wang, J.-D. Hwang, P.-C. Kao, 2021, Jul., “Highly-luminous performance of polymer light-emitting devices utilizing platinum/nickelous oxide as the anode material,” Synth. Met. 277, 116796. (2022 IF=4.4, Rank [POLYMER SCIENCE]=23/86=26.74%)
17. S.-H. Chen*, K.-Y. Shih, J.-D. Hwang, C.-F. Yu, 2019, Nov., “High-performance polymer LED using NiOx as a hole-transport layer,” J. Mater. Chem. C 7(43), pp. 13510-13517. (2022 IF=6.4, Rank [PHYSICS, APPLIED]=31/159=19.50%)
18. C.-L. Huang, S.-H. Chen*, C.-Y. Wu, Y.-S. Sie, P.-C. Kao, 2019, Nov., “Influence of the silver nanocrystal shape on the luminous efficiency of blue-emitting polymer light-emitting diodes,” Langmuir 35(47), pp. 15114-15120. (2022 IF=3.9, Rank [CHEMISTRY, MULTIDISCIPLINARY]=74/178=41.57%)
19. S.-H. Chen*, Y.-H. Shih, Y.-R. Li, P.-K. Wei, C.-F. Yu, C.-Y. Huang, 2019, Sep., “Polymer LEDs with improved efficacy via periodic nanostructure-based aluminum,” Opt. Lett. 44(17), pp. 4327-4330. (2022 IF=3.6, Rank [OPTICS]=31/100=31.00%)
20. S.-H. Chen*, C.-L. Huang, B.-H. Cheng, H.-J. Ku, H.-I Hsiao, P.-C. Kao, 2019, Feb., “Enhanced device performances of blue-emitting PLEDs coupled with silver-nanoicosahedrons,” Part. Part. Syst. Char. 36(2), 1800376. (2022 IF=2.7, Rank [MATERIALS SCIENCE, MULTIDISCIPLINARY]=207/342=60.53%)
21. P.-C. Kao*, C.-J. Hsieh, Z.-H. Chen, S.-H. Chen, 2018, Nov., “Improvement of MoO3/Ag/MoO3 multilayer transparent electrodes for organic solar cells by using UV–ozone treated MoO3 layer,” Sol. Energ. Mat. Sol. C. 186(11), pp. 131-141. (2022 IF=6.9, Rank [PHYSICS, APPLIED]=26/159=16.35%)
22. S.-H. Chen*, C.-L. Huang, C.-F. Yu, G.-F. Wu, Y.-C. Kuan, B.-H. Cheng, Y.-R. Li, 2017, Sep., “Efficacy improvement in polymer LEDs via silver-nanoparticle doping in the emissive layer,” Opt. Lett. 42(17), pp. 3411-3414.
23. S.-H. Chen*, C.-W. Su, L.-H. Chang, T.-H. Tsai, 2017, Jul., “Differences in the nanoscale electrical properties of GaN films grown on sapphire and ZnO substrates by molecular beam epitaxy,” Microsc. Res. Techniq. 80(7), pp. 731-736.
24. S.-H. Chen*, C.-F. Yu, C.-S. Chien, 2017, Jul., “Nanoscale electrical properties of ZnO nanorods grown by chemical bath deposition,” Microsc. Res. Techniq. 80(7), pp. 671-679.
25. S.-H. Chen*, C.-F. Yu, C.-J. Wang, S.-H. Chen, Y.-D. Chen, T.-C. Chen, C.-F. Lin, 2016, Nov., “Light enhancement of plasmonic nano-structure for PLEDs at RGB wavelengths,” Org. Electron. 38(11), pp. 337-343.
26. S.-H. Chen*, Y.-H. Chang, C.-W. Su, J.-S. Tsay, 2016, Oct., “Magnetic domain imaging of nano-magnetic films using magnetic force microscopy with polar and longitudinally magnetized tips,” Microsc. Res. Techniq. 79(10), pp. 917-922.
27. M.-S. Tsai*, K.-K. Yang, S.-H. Chen, C.-C. Ting, I-M. Jiang, 2016, Sep., “Fabrication of efficient thermoacoustic device with an interdigitated-like electrode on indium tin oxide glass,” Jpn. J. Appl. Phys. 55, 106702.
28. W.-J. Hsu, K.-T. Chen, W.-C. Huang, C.-J. Wu, J.-J. Dai, S.-H. Chen, C.-F. Lin*, 2016, May, “InGaN light emitting diodes with a nanopipe layer formed from the GaN epitaxial layer,” Opt. Express 24, pp. 11601-11610.
29. S.-H Chen*, C.-T. Yen, C.-F. Yu, P.-C. Kao, C.-F. Lin, 2015, Feb., “Differences between the luminescence efficiencies of PLEDs based on Ag-nanoparticles/GZO/PEN and GZO/Ag-nanoparticles/PEN anodes,” Plasmonics 10, pp. 925-930.
30. S.-H Chen*, C.-T. Yen, C.-F. Yu, P.-C. Kao, C.-F. Lin, 2015, Apr., “High PLED Enhancement by Surface Plasmon Coupling of Au Nanoparticles”, Plasmonics 10, pp. 257-261.
31. K.-P. Huang, K.-C. Wu, F.-H. Fan, W.-P. Tseng, B.-C. Shieh, S.-H. Chen, C.-F. Lin*, 2014, Aug., " InGaN Light-Emitting Diodes with Multiple-Porous GaN Structures Fabricated through a Photoelectrochemical Etching Process," ECS J. Solid State Sci. Technol. 3, pp. R185-R188.
32. W.-S. Tsai, C.-K. Chang, F.-W. Sheu*, Y.-H. Wang, S.-H. Chen, 2014, Jul., "Refractive index profiling of a few-mode fiber from fundamental mode excitation", Opt. Commun. 323, pp. 138-142.
33. S.-H. Chen*, Y.-R. Li, C.-F. Yu, C.-F. Lin, P.-C. Kao, 2013, Nov., “Enhanced luminescence efficiency of Ag nanoparticles dispersed on indium tin oxide for polymer light-emitting diodes”, Opt. Express 21, pp. 26236-26243.
34. S.-H. Chen*, W.-C. Chen, C.-F. Yu, C.-F. Lin, P.-C. Kao, 2013, Aug., “Influence of gallium-doped zinc-oxide thickness on polymer light-emitting diode luminescence efficiency”, Microsc. Res. Techniq. 76, pp. 783-787.
35. S.-H. Chen* and S.-C. Chan, 2012, Jun., “Light enhancement of plasmonic nanostructures for polymer light-emitting diodes at different wavelengths”, Appl. Phys. Express 5, 062001.
36. S.-H. Chen* and Y.-C. Chen, 2012, Jun., “High-performance polymer light-emitting diodes based on a gallium-doped zinc oxide/polyimide substrate”, IEEE T. Electron. Dev. 59, pp. 1709-1715.
37. C.-F. Lin*, Y.-C. Huang, S.-H. Chen, G.-M. Wang, Z.-Z. Yang, 2012, Jan., “Enhancement of light extraction efficiency of InGaN light-emitting diodes with an air-hole-array structure”, Jpn. J. Appl. Phys. 51, 01AG05.
38. W.-C. Huang, C.-F. Lin*, T.-H. Hsieh, S.-H. Chen, M.-S. Lin, K.-T. Chen, C.-M. Lin, S.-H. Chen, P. Han, 2011, Sep., “InGaN light emitting diodes with a laser-treated tapered GaN structure”, Opt. Express 19, pp. A1126-A1134.
39. S.-H. Chen* and J.-Y. Jhong, 2011, Aug.,” Enhanced luminescence efficiency by surface plasmon coupling of Ag nanoparticles in a polymer light-emitting diode”, Opt. Express 19, pp. 16843-16850.
40. P.-C. Kao*, J.-H. Lin, J.-Y. Wang, C.-H. Yang, S.-H. Chen, 2011, May, “Li2CO3 as an n-type dopant on Alq3-based organic light emitting devices”, J. Appl. Phys. 109, 094505.
41. C.-F. Yu*, S.-H. Chen, S.-J. Sun, H. Chouc, 2011, Apr., “Influence of the grain boundary barrier height on the electrical properties of Gallium doped ZnO thin films”, Appl. Surf. Sci. 257, pp. 6498–6502.
42. S.-H. Chen*, S.-T. Yu, Y.-Y. Liou, C.-F. Yu, C.-F. Lin, P.-C. Kao, 2011, Mar., “Increasing the PLED luminescence efficiency by exploiting the surface plasmon resonance effect”, J. Electrochem. Soc. 158, pp. J53-J57.
43. Y.-C. Huang, C.-F. Lin*, S.-H. Chen, J.-J. Dai, G.-M. Wang, K.-P. Huang, K.-T. Chen, Y.-H. Hsu, 2011, Jan., “InGaN-based light-emitting diodes with an embedded conical air-voids structure”, Opt. Express 19, pp. A57-A63.
44. P.-C. Kao*, J.-H. Lin, J.-Y. Wang, C.-H. Yang, S.-H. Chen, 2010, Aug., “Improved electron injection into Alq3 based OLEDs using a thin lithium carbonate buffer layer”, Synthetic Met. 160, pp. 1749-1753.
45. P.-C. Kao*, J.-Y Wang, J-H Lin, S.-H. Chen, 2010, Mar., “Enhancement of electron injection in organic light emitting diodes using an ultrathin sodium carbonate buffer layer”, J. Electrochem. Soc. 157, pp. J135- J138.
46. F.-W. Sheu*, H.-Y. Wu, S.-H. Chen, 2010, Mar., “Using a slightly tapered optical fiber to attract and transport microparticles”, Opt. Express 18, pp. 5574-5579.
47. S.-H. Chen* and C.-F. Yu, 2010, Mar., “Differences between nanoscale structural and electrical properties of AZO:N and AZO used in polymer light-emitting diodes”, Microsc. Res. Techniq. 73, pp. 202-205.
48. S.-H. Chen*, W.-S. Lin, W.-C. Wang, 2010, Jan., “Measurement of edge verticality of optical recording bits on blu-ray discs using scanning probe microscopy”, Microsc. Res. Techniq. 73, pp. 1-4.
49. C.-F. Yu*, C.-W. Sung, S.-H. Chen, S.-J. Sun, 2009, Nov., “Relationship between the photoluminescence and conductivity of undoped ZnO thin films grown with various oxygen pressures”, Appl. Surf. Sci. 256, pp. 792-796.
50. S.-H. Chen*, C.-F. Yu, Y.-J. Liu, T.-J. Lin, Y.-C. Li, 2009, Jul., “Effect of substrate temperature on the nanoscale surface structural and electrical properties of ZnO:N films prepared by pulsed laser deposition”, J. Vac. Sci. Technol. B 24, pp. 1933-1937.
51. C.-F. Yu*, S.-H. Chen, S.-J. Sun, H. Chou, 2009, Jan., “Influence of the substrate temperature on the electrical and magnetic properties of ZnO:N thin films grown by pulse laser deposition”, J. Phys. D: Appl. Phys. 42, 035001.
52. S.-H. Chen*, C.-F. Yu, Y.-S. Lin, W.-J. Xie, T.-W. Hsu, D. P. Tsai, 2008, Dec., “Nanoscale surface electrical properties of aluminum zinc oxide thin films investigated by scanning probe microscopy”, J. Appl. Phys. 104, 114314.
53. C.-F. Yu, S.-H. Chen*, W.-J. Xie, Y.-S. Lin, C.-Y. Shen, S.-J. Tsai, C.-W. Sung, C. Ay, 2008, Jan., “Nanoscale surface electrical properties of zinc oxide films investigated by conducting atomic force microscopy”, Microsc. Res. Techniq. 71, pp. 1-4.
54. S.-H. Chen*, 2007, Apr., “Rapid and accurate measurement for phase-change optical recording bits”, Microsc. Res. Techniq. 70, pp. 325-328.
55. S.-H. Chen*, S.-P. Hou, J. H. Hsieh, D. P. Tsai, 2006, Feb., “Writing and erasing efficiency analysis on optical storage media using scanning surface potential microscopy”, J. Vac. Sci. Technol. A 24, pp. 2003-2007.
56. S.-H. Chen*, H. C. Hsiung, W.-B. Su, D. P. Tsai, 2006, Sep., “Convenient near-field optical measurement and analysis of polystyrene spheres”, Vacuum 81, pp. 129-132.
57. S.-H. Chen*, S.-P. Hou, J. H. Hsieh, F. C. Chang, W. K. Chen, 2006, Jan., “Advanced electrical imaging of dislocations in Mg-In co-doped GaN films”, J. Vac. Sci. Technol. B 24, pp.108-112.
58. S.-H. Chen*, C.-W. Lin, W.-C Lin, D. P. Tsai, 2005, Jun., “Study of optical recording bits by scanning surface potential microscopy”, J. Vac. Sci. Technol. A 23, pp. 663-665.
59. S.-H. Chen*, 2005, Apr., “Work function changes of treated indium-tin-oxide films for organic light emitting diodes investigated using scanning surface potential microscopy”, J. Appl. Phys. 97, 073713.
60. S.-F. Chang, H.-Y. Chang, Y.-C. Tong, S.-H. Chen, F.-C. Hsaio, S.-C. Lu, J. Liaw, 2004, Jul., “Nonionic polymeric micelles for oral gene delivery in vivo”, Hum. Gene Ther. 15(5), pp. 481-493.
61. H.-N. Lin, S.-H. Chen, P.-R. Chen, S.-T. Ho, I.-N. Lin, 2003, Apr., “Comparative measurements of the piezoelectric coefficient of a lead zirconate titanate film by piezoresponse force microscopy using electrically characterized tips”, J. Vac. Sci. Technol. B 21, pp. 916-918.
62. H.-N. Lin, H.-L. Lin, S.-S. Wang, L.-S. Yu, G.-Y. Perng, S.-A. Chen, S.-H. Chen, 2002, Sep., “Nanoscale charge transport in an electroluminescent polymer investigated by conducting atomic force microscopy”, Appl. Phys. Lett. 81, pp. 2572-2574.
63. S.-H. Chen* and Y.-F. Chen, 2001, Nov., “Nanostructure patterns written in polycarbonate by a bent optical fiber probe”, J. Vac. Sci. Technol. B 19, pp. 2299-2300.
64. H.-N. Lin, S.-H. Chen, G.-Y. Perng, S-A Chen, 2001, Apr., “Nanoscale surface electrical properties of indium-tin-oxide films for organic light emitting diodes investigated by conducting atomic force microscopy”, J. Appl. Phys. 89, pp. 3976-3979.
65. H.-N. Lin, S.-H. Chen, Y.-Z. Lee, S.-A. Chen, 2001, Jan., “Nanoscale optical imaging on an electroluminescent polymer by conducting atomic force microscopy”, J. Vac. Sci. Technol. B 19, pp. 308-310.
66. S.-H. Chen* and Y.-F. Chen, 2001, Jan., “Construction of a near-field spectrum analysis system using bent tapered fiber probes”, Rev. Sci. Instrum. 72, pp. 268-270.
67. S.-H. Chen, H.-N. Lin, C.-R. Yang, 2000, Oct., “Surface roughness measurement on microchannels by atomic force microscopy using a bent tapered fiber probe”, Rev. Sci. Instrum. 71, pp. 3953-3954.
68. S.-H. Chen, H.-N. Lin, P.-M. Ong, 2000, Oct., “Spring constant measurement of a bent near-field optical fiber probe”, Rev. Sci. Instrum. 71, pp. 3788-3790.
69. S.-H. Chen*, D. P. Tsai, Y.-F Chen, P.-M. Ong ,1999, Dec., “True near-field optical characters of a GaAlAs semiconductor laser diode”, Rev. Sci. Instrum. 70, pp. 4463-4465.
70. H.-N. Lin, U. Lewlomphaisarl, S. H. Chen, L. J. Lee, 1998, Nov., “Controllable fabrication of bent near-field optical fiber probes by electric arc heating”, Rev. Sci. Instrum. 69, pp. 3843-3845.
71. H.-N. Lin, S. H. Chen, L. J. Lee, 1998, Nov., “Construction of a dual mode scanning near-field optical microscope based on a tapping mode atomic force microscope”, Rev. Sci. Instrum. 69, pp. 3840-3842.

b. 中文期刊論文 (*為通訊作者) 共計 5 篇

1. 葉權太, 李佾儒, 吳冠甫, 陳思翰, 2015, 3月, “利用銀或金奈米粒子的表面電漿共振提升高分子發光二極體之發光效能”, 真空科技, 28, pp. 21-27.
2. 王申申, 林鶴南, 陳思翰, 2001, 6月,“電致發光高分子之奈米尺度光電特性研究”, 科儀新知, 23, pp. 4-9.
3. 陳思翰, 2001, 6月, “氧化銦錫薄膜的奈米表面電性研究”, 科儀新知, 23, pp. 22-26.
4. 陳思翰, 林鶴南, 2000, 6月, “彎式近場光學探針彈性係數量測”, 科儀新知, 21, pp. 56-59.
5. 陳思翰, 李龍正, 林鶴南, 1998, 12月, “近場光學顯微系統研製”, 科儀新知, 20, pp. 33-40.

(B)　研討會論文 (*為通訊作者) 共計 66 篇

1. S.-H. Chen*, C.-L. Huang, T.-Y. Chen, C.-Y. Lee, K.-M. Chen, 2024, Jan., “Development of a novel polymer light-emitting diode with graphene thin film as the anode substrate,”2024 Annual Meeting of the Physical Society of Taiwan, P2-SL-083. (poster)
2. C.-H. Du*, S.-H. Chen, C.-F. Yu, 2024, Jan., “基板溫度對於鎵及鋁雙摻雜氧化鋅透明導電薄膜表面微觀電性之影響,”2024 Annual Meeting of the Physical Society of Taiwan, P2-SL-045. (poster)
3. H.-R. Liang*, S.-H. Chen, C.-F. Yu, P.-C. Kao, 2024, Jan., “GZO、GZO/Ag/GZO以及GZO/Ag之表面微觀電學特性研究,”2024 Annual Meeting of the Physical Society of Taiwan, P2-SL-044. (poster)
4. H. J. Huang*, X.-Y. Shih, L.-Y. Huang, S.-H. Chen, H.-P. Chiang, J. C.-S. Wu, C.-L. Huang, 2023, Dec., “Reflection spectra of TiO2 nanoparticles deposited with various shapes of silver nanoparticles,” 2023 Optics & Photonics Taiwan International Conference, 2023-SUN-P0103-P020. (poster)
5. H. J. Huang*, Y.-H. Wang, S.-H. Chen, H.-P. Chiang, Y.-F. Chou Chau, J. C.-S. Wu, 2023, Dec., “Effects of external light in the magnetic field-modulated photocatalytic reactions in a microfluidic chip reactor,” 2023 Optics & Photonics Taiwan International Conference, 2023-FRI-P0101-P034. (poster)
6. K.-M. Chen, B.-Y. Lu, C.-L. Huang, S.-H. Chen, 2023, Apr., “Influence of Ag-doped Graphene Oxide Thin Films on Microscopic Electrical Properties for ITO Surface,” 2023 7th International Conference on Materials Engineering and Nano Sciences, Chiba University, Chiba, Japan (日本千葉縣千葉大學), MT23-205-A. (poster)
7. K.-M. Chen*, B.-Y. Lu, C.-L. Huang, S.-H. Chen, 2023, Jan., “摻銀氧化石墨烯薄膜對於 ITO 表面微觀電性之影響,” 2023 Annual Meeting of the Physical Society of Taiwan, P1-SL-031. (poster)
8. P.-Y. Hsiao*, S.-H. Chen, 2022, Jan., “利用銀鏡射膜增益 PLED 的發光效能,” 2022 Annual Meeting of the Physical Society of Taiwan, PP-SOE-074. (poster)
9. S.-H. Chen,Y.-C. Tu, J.-D. Hwang, P.-C. Kao, 2021, Jan., “Feasibility study of using NiOx as the anode substrate for polymer light-emitting diodes,” 2021 Annual Meeting of the Physical Society of Taiwan, P2-OE-037. (poster)
10. S.-H. Chen,C.-L. Huang, Y.-S. Huang*, 2020, Feb., “Influence of the scattering phenomenon of Ag nanoparticles on luminous efficiency for PLEDs,” 2020 Annual Meeting of the Physical Society of Taiwan, P1-NST-002. (poster)
11. K.-Y. Shih, J.-D Hwang, C.-F. Yu, S.-H. Chen*, 2019, Jan., “Feasibility study of NiOx as the high-performance hole transport layer for polymer light-emitting diodes,” 2019 Annual Meeting of the Physical Society of Taiwan, P1-SS-034. (poster)
12. S.-H. Chen*, Y.-H. Shih, Y.-R. Li, P.-K. Wei, 2018, Jun., “Application of Nanoimprint Lithography on Polymer Light-Emitting Diode,” 2018 6th Asia Conference on Mechanical and Materials Engineering, Seoul, South Korea (南韓), AC2018-109-A. (poster)
13. S.-H. Chen, C.-L. Huang, H.-J. Ku*, 2018, Jan., “Influence of doping silver nanoparticles in emission layer on luminescence efficiency for blue-light PLEDs,” 2018 Annual Meeting of the Physical Society of Taiwan, P1-EM-026. (poster)
14. S.-H. Chen, C.-L. Huang, C.-Y. Wu*, 2018, Jan., “Influence of geometric structure of silver nanoparticles on luminescence efficiency for blue-light PLEDs,” 2018 Annual Meeting of the Physical Society of Taiwan, P1-OE-048. (poster)
15. S.-H. Chen, Y.-C. Kuan*, C.-L. Huang, C.-F. Yu, 2017, Jan., “Emitting enhancement of green-light PLEDs by doping silver nanoparticles in emission layer,” 2017 Annual Meeting of the Physical Society of Repubilc of China, P1-OE-033. (poster)
16. 吳冠甫*, 陳思翰, 黃正良, 余昌峰, 高柏青, 2016, Jan., “摻雜銀奈米粒子於高分子發光二極體的發光層之光增益研究”, 2016中華民國物理學會年會暨成果發表會, P1-OE-026. (poster)
17. 王傳傑*, 陳思翰, 余昌峰, 林佳鋒, 高柏青, 2016, Jan., “金銀奈米複合顆粒在高分子發光二極體之全彩光增益研究”, 2016中華民國物理學會年會暨成果發表會, P1-PG-007. (poster)
18. C.-W. Su*, T.-H. Tsai, S.-H. Chen, C.-F. Yu, 2015, Nov., "Surface morphology and crystalline of GaN thin films controlled by homoepitaxial low- temperature buffer layers," TACT 2015 International Thin Films Conference, P-C51-0496. (poster)
19. S.-H. Chen*, S.-H. Chen, 2015, Sep., “Influence of Ag-Au composite nanoparticles on polymer light-emitting diode luminescence efficiency”, 2015 International Symposium on Engineering and Applied Science, Kuala Lumpur, Malaysia (馬來西亞吉隆坡), ISEAS-105. (poster)
20. C.-W. Su*, B.-C. Chen, S.-H. Chen, 2015, Jul., “Study of epitaxial GaN films on c-axis sapphire substrate by plasma-assisted molecular beam epitaxy”, 第三十三屆光譜技術與表面科學研討會. (oral)
21. 張宥翔, 蘇炯武, 陳思翰*, 2015, Jan., “提升磁力顯微技術量測精確度”, 2015中華民國物理學會年會暨成果發表會, P2-MM-066. (poster)
22. 陳彥登, 黃正良, 余昌峰, 高柏青, 林佳鋒, 陳思翰*, 2015, Jan., “利用摻雜銀奈米粒子於綠光PLED發光層以改變光輸出效能”, 2015中華民國物理學會年會暨成果發表會, P1-PG-014. (poster)
23. C.-W. Su*, C.-L. Lin, J.-S. Tsay, Y.-W. Jhou, S.-H. Chen, Y.-H.Chang, 2015, Jan.,"Variation of incident anglein magneto-optical Kerr effect studies: Co/Si interfaces", 2015中華民國物理學會年會暨成果發表會, P2-MM-027. (poster)
24. 陳鈞義, 陳思翰*, 2014, Jan., “以Ag/GZO及GZO/Ag為陽極之PLED元件發光效能差異性研究”, 2014中華民國物理學會年會暨成果發表會, P2-OE-003. (poster)
25. 葉權太, 陳思翰*, 2014, Jan., “應用於PLED元件之Au/ITO及Ag/ITO基材的微觀電性研究”, 2014中華民國物理學會年會暨成果發表會, P2-SS-001. (poster)
26. S.-H. Chen*, Y.-R. Li, C.-F. Yu, P.-C. Kao, 2013, Sep., “Effect of thickness of Ag buffer layer on the nano-electrical properties of ITO film for PLED”, International Research Conference on Engineering and Technology, Singapore (新加坡), IRCET 34. (poster)
27. S.-H. Chen*, W.-C. Chen, C.-F. Yu, P.-C. Kao, C.-F. Lin, 2013, Mar., “Nanoscale surface electrical properties of gallium-doped zinc oxide films for polymer light emitting diodes investigated by scanning probe microscopy”, The International Conference on Engineering and Applied Science, Tokyo, Japan (日本東京), ICEAS 961. (poster)
28. 陳暐鈞, 陳思翰*, 2013, Jan., “利用掃描探針顯微技術研究氧化鋅鎵薄膜之奈米級光電特性”, 2013中華民國物理學會年會暨研究成果發表會, SS-P1-036. (poster)
29. S.-H. Chen* and S.-C. Chan, 2012, Mar., “Enhanced luminescence efficiency by a silver nanostructure layer in a polymer light-emitting diode”, The International Symposium on Electronic/Optic Functional Molecules, Shanghai, China (中國上海), P-26. (poster)
30. S.-H. Chen* and S.-C. Chan, 2012, Jan., “Light enhancement using plasmonic nano-structure for polymer light-emitting diodes”, 2012中華民國物理學會年會暨研究成果發表會, J13-00011. (poster)
31. 陳思翰*, 鐘鎮宇, 2011, Jan., “銀奈米顆粒夾層對於GZO表面微觀光電特性之影響”,2011中華民國物理學會年會暨研究成果發表會, FP-203. (poster)
32. 陳思翰*, 陳昱全, 2011, Jan., “在不同的製程溫度條件下GZO薄膜表面之微觀電性研究”, 2011中華民國物理學會年會暨研究成果發表會, FP-202. (poster)
33. 黃彥錫, 許芳文, 陳思翰, “利用錐形無纖核光纖表面的漸逝場吸引與傳遞介電微粒”, 2011中華民國物理學會年會暨研究成果發表會, EP-188. (poster)
34. Y.-J. Tsai, I-F. Yu, Y.-W. Cheng, J.-H. Li*, S.-H. Chen, T. W.-H. Sheu, 2010, Sep., “Focusing Properties of Near-field Plasmonic Fresnel Zone Plates”, 第十四屆奈米工程暨微系統技術研討會, C08_26. (oral)
35. F.-W. Sheu*, H.-Y. Wu, S.-H. Chen, 2010, Jul., "Trapping and propelling microparticles by a slightly tapered optical fiber," The 15th OptoElectronics and Communications Conference (OECC 2010), Sapporo, Hokkaido, Japan (日本北海道札幌), 7P-35. (poster)
36. 陳思翰*, 余昌峰, 余施德, 劉翊瑩, 蔡明善, 2010, Feb., “Increasing of PLED luminescence efficiency by surface plasmonic effect”, 2010中華民國物理學會年會暨研究成果發表會, AP-005. (poster)
37. C. F. Yu*, S.-H. Chen, C. L. Huang, M. T. Syu, T. H. Su, J. M. Chen, W. S. Wang, Y. C. Chi, T. L. Shih, 2010, Feb., “摻雜鎵氧化鋅多晶薄膜之載子傳輸機制研究”, 2010中華民國物理學會年會暨研究成果發表會, BP-037. (poster)
38. C. F. Yu*, S.-H. Chen, C. L. Huang, M. T. Syu, T. H. Su, W. S. Wang, J. M. Chen, Y. C. Chi, T. L. Shih, 2010, Feb., “磁輔助雷射蒸鍍製備氧化鋅鎵(ZnO:Ga)薄膜之特性研究”, 2010中華民國物理學會年會暨研究成果發表會, BP-057. (poster)
39. 吳泓諭, 許芳文*, 陳思翰, 2009, Dec., "利用錐形光纖表面的漸逝場操控介電微粒", 台灣光電科技研討會, FP013. (poster)
40. S.-H. Chen*, C.-F. Yu, Y.-R. Huang, S.-M. Chen, S.-D. Yu, 2009, Jul., “Differences between nanoscale structural and electrical properties of AZO:N and AZO used in polymer light-emitting diodes”, Symposium on Spectroscopic Technologies and Surface Sciences, P40. (poster)
41. S.-H. Chen*, C.-F. Lin, C. Ay, H.-W. Yi, S.-T. Yu, 2009, Jul., “Electrical and near-field optical characters of a GaN light emitting diode”, Symposium on Spectroscopic Technologies and Surface Sciences, P43. (poster)
42. Y.-J. Liu, T.-J. Lin, S.-H. Chen*, C.-F. Yu, 2009, Apr., “Dependence of local structural and electrical properties of nitride doped zinc oxide films on growth temperature”, Symposium on Nano Device Technology, NM01. (poster)
43. S.-H. Chen*, W. -S. Lin, W. -J. Wang, 2009, Jan., “Measurement of edge verticality of optical recording bits on blu-ray discs using scanning probe microscopy”, 2009中華民國物理學會年會暨研究成果發表會, PF-01. (poster)
44. S.-H. Chen*, C. -F. Yu, and Y. -R. Huang, T. -W. Hsu, 2009, Jan., “Effect of substrate temperature on nanoscale surface structural and electrical properties of AZO:N films prepared by pulsed laser deposition”, 2009中華民國物理學會年會暨研究成果發表會, PF-02. (poster)
45. H.-Y Wu, F.-W Sheu*, S.-H. Chen, “Optical attraction using a tapered optical fiber in dielectrophoresis system”, 2009中華民國物理學會年會暨研究成果發表會, PE-87. (poster)
46. 余昌峰*,陳思翰,陳世銘,黃育仁,許銘泰,余諮宜,2009, Jan., “可撓式基板上之AZO:N導電薄膜光電特性研究”, 2009中華民國物理學會年會暨研究成果發表會, PB-30. (poster)
47. 蔡省仲, 沈政宇, 陳思翰, 2008, Jan., “彎式光纖探針的製備及其在原子力顯微術上之應用”, 2008中華民國物理學會年會暨研究成果發表會, PF-28. (poster)
48. 林勇孝, 許廷維, 余昌峰, 陳思翰, 2007, Nov., “利用導電性原子力顯微技術研究AZO之微觀表面電性”, 2007年 中國材料科學年會論文集, P07-091. (poster)
49. 余昌峰, 陳思翰, 許廷維, 林子荏, 陳世銘, 林亞男, 林勇孝, 許銘泰, 2007, Nov.,“可撓式AZO透明導電薄膜研究”, 2007年中國材料科學年會論文集, P04-113. (poster)
50. 余昌峰, 陳思翰, 林子荏, 許廷緯, 林亞男, 陳世銘, 許銘泰, 宋哲瑋, 2007, Nov., “不同基板溫度下之氧化鋅導電薄膜研究”, 2007年中國材料科學年會論文集, P04-112. (poster)
51. W.-C. Hsieh, W.-C. Li, Y.-H. Lin, S.-H. Chen, S.-P. Hou, D. P. Tsai, 2007, Jan., “Rapid and accurate measurement for phase-change optical recording bits”, 2007中華民國物理學會年會暨研究成果發表會, PF-35. (poster)
52. S.-P. Hou and S.-H. Chen, 2006, Jan., “Nano-scalar electrical analysis of dislocations in Mg-In co-doped GaN films”, 2006中華民國物理學會年會暨研究成果發表會, PA-25. (poster)
53. S.-P. Hou and S.-H. Chen, 2005, Dec., “Study of conductive properties and work function of dislocations in p-type GaN film by scanning probe microscopy”, Optics and Photonics Taiwan 2005, PA-FR1-169. (poster)
54. S.-H. Chen and S.-P. Hou, 2005, Nov., “Advanced electrical imaging of dislocations in Mg-In co-doped GaN films”, The 2005 Annual Conference of the Chinese Society for Material Sciense, 4-1-P-020. (poster)
55. P. P. Yang, S.-H. Chen, D. P. Tsai, 2005, Feb., “Advanced imaging of the recording bits on optical storage discs”, 2005中華民國物理學會年會暨研究成果發表會, BF-4. (poster)
56. S.-H. Chen, C.-W. Lin, W. C. Lin, D. P. Tsai, 2004, Dec., “Study of optical recording bits by scanning surface potential microscopy”, Optics and Photonics Taiwan 2004, PA-SA1-13 (3 pages).
57. S.-H. Chen, C.-M. Lin, T.-H. Chen, J.-S. Cherng, M.-C. Chen, S.-A. Chen, 2004, Nov., “Work function changes on indium-tin-oxide films for organic light emitting diodes investigated by scanning surface potential microscopy”, The 2004 Annual Conference of the Chinese Society for Material Sciense, PD3-001. (poster) (壁報論文佳作獎)
58. S.-H. Chen and C.-S. Siyu, 2003, Dec., “Nanoscale optical measurement and analysis of polystyrene spheres”, 第三屆台塑關係企業應用技術研討會, F-27 (3 pages).
59. 陳思翰, 2003, Dec., “利用掃描探針顯微技術研究氧化銦錫薄膜之區域導電性與功函數”, 第三屆台塑關係企業應用技術研討會, C-02. (poster)
60. H.-N. Lin, S.-H. Chen, S.-T. Ho, 2002, Aug., “Piezoelectric coefficient measurement of a lead zirconate titanate film by Piezoelectric force microscopy using truly conductive probes”, Asia SPM4 & Taipei Symposium on Nanotechnology, pp. 71. (poster)
61. S.-H. Chen, C.-Y. Su, 2002, Aug., “Nanoscale electrical properties of ITO by scanning probe microscopy”, Asia SPM4 & Taipei Symposium on Nanotechnology, pp. 90. (poster)
62. H.-N. Lin and S.-H. Chen, 2000, Dec. “Conducting atomic force microscopy study of indium tin oxide”, Photonics Conference 2000 Proceeding, pp. 555-557. (poster)
63. 陳品任, 林鶴南, 陳思翰, 林諭南, 2000, Nov., “利用原子力顯微術研究Pb(Zr0.52Ti0.48)薄膜之微觀鐵電特性”, 2000年中國材料科學年會論文集, C-27. (poster)
64. S.-H. Chen, H.-N Lin, W. C. Lin, D. P. Tsai, 1999, Dec., “Fabrication and application of bent near-field optical fiber probes”, 1999年台灣光電科技研討會論文集, pp. 639-642. (poster) (優良壁報論文獎)
65. H.-N. Lin, S.-H. Chen, Y.-Z Lee, S.-A. Chen, 1999, Dec., “Nanoscale optical imaging on electro-luminescent polymer by conducting atomic force microscopy”, 1999年台灣光電科技研討會論文集, pp. 195-198. (poster)