先進能源材料研究室

個人著作明細

A. 國際期刊論文 (Science Citation Index)：

1. W. W. Wu, T. F. Chiang, S. L. Cheng, S. W. Lee, L. J. Chen, Y. H. Peng, and H. H. Cheng, “Enhanced growth of CoSi2 on epitaxial Si0.7Ge0.3 with a sacrificial amorphous Si interlayer,” Appl. Phys. Lett. 81, 820-822 (2002).

2. B.-C. Hsu, K.-F. Chen, C.-C. Lai, S. W. Lee and C. W. Liu, “Oxide roughness effect on tunneling current of MOS diodes,” IEEE Trans. Electron Device, Vol. 49, No. 12, 2204-2208, (2002).

3. S. W. Lee, H. C. Chen, L. J. Chen, Y. H. Peng, C. H. Kuan, and H. H. Cheng, ”Effects of low-temperature Si buffer layer thickness on the growth of SiGe by molecular beam epitaxy,” J. Appl. Phys. 92, 6880-6885 (2002).

4. W.-H. Chang, A.-T. Chou, W.-Y. Chen, H.-S. Chang, T.-M. Hsu, Z. Pei, P.-S. Chen, S. W. Lee, L.-S. Lai, S. C. Lu and M.-J. Tsai, “Room–temperature electroluminescence at 1.3 and 1.5 μm from Ge/Si self-assembled quantum dots,” Appl. Phys. Lett. 83, 2958-2960 (2003).

5. T. F. Chiang, W. W. Wu, S. L. Cheng, H. H. Lin, S. W. Lee, and L. J. Chen, “Auto-correlation function analysis of crystallization,” Appl. Surf. Sci. 212-213, 339-343 (2003).

6. W. W. Wu, J. H. He, S. L. Cheng, S. W. Lee, and L. J. Chen, “Self-assembled NiSi quantum-dot arrays on epitaxial Si0.7Ge0.3 on (001)Si,” Appl. Phys. Lett. 83, 1836-1838 (2003).

7. W. W. Wu, S. L. Cheng, S. W. Lee, and L. J. Chen, “Enhanced growth of low- resistivity NiSi on epitaxial Si0.7Ge0.3 on (001)Si with a sacrificial amorphous Si interlayer,” J. Vac. Sci. Technol. B 21, 2147-2150 (2003).

8. S. W. Lee, L. J. Chen, P. S. Chen, M.-J. Tsai, C. W. Liu, T. Y. Chien, and C. T. Chia, “Self-assembled nanorings in Si-capped Ge quantum dots on (001)Si,” Appl. Phys. Lett. 83, 5283-5285 (2003).

9. P. S. Chen, Z. Pei, Y. H. Peng, S. W. Lee, and M.-J. Tsai, “Boron mediation on the growth of Ge quantum dots on Si (100) by ultra high vacuum chemical vapor deposition,” Mater. Sci. Eng. B 108, 213–218 (2004).

10. J. H. He, Y. L. Chueh, W. W. Wu, S. W. Lee, L. J. Chen, and L. J. Chou, “The growth of SiGe quantum rings in Au thin films on epitaxial SiGe on silicon,” Thin Solid Films 469-470, 478-482 (2004).

11. C. H. Yu, Y. L. Chueh, S. W. Lee, S. L. Cheng, L. J. Chen, L. J. Chou, and L. W. Cheng, “Solid phase reactions between Fe thin films and Si-Ge layers on Si,” Thin Solid Films 461, 81-85 (2004).

12. H. C. Chen, K. F. Liao, S. W. Lee, and L. J. Chen, “Self-forming silicide/SiGe-based tube structure on Si(001) substrates,” Thin Solid Films 469-470, 483-486 (2004).

13. Z. Pei, P. S. Chen, S. W. Lee, L. S. Lai, S. C. Lu, M.-J. Tsai, W. H. Chang, W. Y. Chen, A. T. Chou, and T. M. Hsu, ”Room temperature 1.3 and 1.5μm electroluminescence from Si/Ge quantum dots (QDs)/Si multi-layers,” Appl. Surf. Sci. 224, 165-169 (2004).

14. H. C. Chen, K. F. Liao, S. W. Lee, S. L. Cheng, and L. J. Chen, “Formation of epitaxial β-FeSi2 nanodots array on strained Si/Si0.8Ge0.2 (001) substrate,” Thin Solid Films 461, 44-47 (2004).

15. P. S. Chen, S. W. Lee, Y. H. Peng, C. W. Liu, and M.‑J. Tsai, “Improvement of photoluminescence efficiency in stacked Ge/Si/Ge quantum dots with a thin Si spacer,” Phys. Stat. Sol. (b) 241, 3650-3655 (2004).

16. S. W. Lee, L. J. Chen, P. S. Chen, M. -J. Tsai, C. W. Liu, W. Y. Chen, and T. M. Hsu, “Improved growth of Ge quantum dots in Ge/Si stacked layers by pre-intermixing treatments,” Appl. Surf. Sci. 224, 152-155 (2004).

17. S. W. Lee, P. S. Chen, M. -J. Tsai, C. T. Chia, C. W. Liu, and L. J. Chen, “The growth of high-quality SiGe films with an intermediate Si layer,” Thin Solid Films 447-448, 302-305 (2004).

18. H. C. Chen, C. H. Huang, K. F. Liao, S. W. Lee, C. H. Hsu, and L.J. Chen, “Morphology modification of quantum dots on Si(001) surface by ion sputtering,” Nucl. Instr. Methods B. 237, 465-469 (2005).

19. J. H. He, W. W. Wu, S. W. Lee, L. J. Chen, Y. L. Chueh, and L. J. Chou, “Synthesis of blue-light-emitting Si1-xGex oxide nanowires,” Appl. Phys. Lett. 86, 263109 (2005).

20. K. F. Liao, P. S. Chen, S. W. Lee, L. J. Chen, and C. W. Liu, “Formation of high-quality and relaxed SiGe buffer layer with H-implantation and subsequent thermal annealing,” Nucl. Instr. Methods B. 237, 217-222 (2005).

21. P. S. Chen, S. W. Lee, Y. H. Liu, M. H. Lee, M.‑J. Tsai and C. W. Liu, “Ultra-high-vacuum chemical vapor deposition of hetero-epitaxial Si1-x-yGexCy and Si1-yCy thin films on Si(001) with ethylene (C2H4) precursor as carbon source,” Mater. Sci. in Semi. Proc. 8, 15-19 (2005).

22. S. W. Lee, Y. L. Chieh, L. J. Chen, L. J. Chou, P. S. Chen, M. H. Lee, M.-J. Tsai, and C. W. Liu, “The growth of strained Si on high-quality relaxed Si1-xGex with an intermediate Si1-yCy layer,” J. Vac. Sci. Technol. A 23, 1141-1145 (2005).

23. S. W. Lee, Y. L. Chueh, L. J. Chen, L. J. Chou, P. S. Chen, M. -J. Tsai, and C. W. Liu, “Formation of SiCH6-mediated Ge quantum dots with strong field emission properties by ultra-high vacuum chemical vapor deposition,” J. Appl. Phys. 98, 073506 (2005).

24. H. C. Chen, C. W. Wang, S. W. Lee, and L. J. Chen, “Pyramid-shaped Si-Ge superlattice quantum dots with strong photoluminescence properties,” Adv. Mater. 18, 367-370 (2006).

25. P. S. Chen, S. W. Lee, K. F. Liao, “Growth of high-quality relaxed SiGe films with an intermediate Si1−yCy layer for strained Si n-MOSFETs,” Mater. Sci. Eng. B 130, 194–199 (2006).

26. S. W. Lee, P. S. Chen, T. Y. Chien, L. J. Chen, C. T. Chia, and C. W. Liu, “Growth of high-quality SiGe films with a buffer layer containing Ge quantum dots,” Thin Solid Films 508, 120-123 (2006).

27. S. W. Lee, Y. L. Chueh, H. C. Chen, L. J. Chen, P. S. Chen, L. J. Chou, and C. W. Liu, “Field-emission properties of self-assembled Si-capped Ge quantum dots,” Thin Solid Films 508, 218-221 (2006).

28. H. C. Chen, S. W. Lee, and L. J. Chen, “Self-aligned nanolenses with multilayered Ge-silica core-shell structures on Si (001),” Adv. Mater. 19, 222-226 (2007).

29. S. L. Cheng, H. Y. Chen, and S. W. Lee, “Enhanced growth of low-resistivity cobalt silicide by using a Co/Au/Co trilayer film on Si0.8Ge0.2 Virtual Substrate," Appl. Surf. Sci. 254, 6211-6214 (2008).

30. M. H. Lee, S. T. Chang, S. W. Lee, P. S. Chen, K.-W. Shen, and W.-C. Wang, “Strained-Si with Carbon Incorporation for MOSFET Source/Drain,” Appl. Surf. Sci. 254, 6147-6150 (2008).

31. P. S. Chen, S. W. Lee, M. H. Lee, and C. W. Liu, “Formation of relaxed SiGe on the buffer consists of modified SiGe islands by Si pre-intermixing,” Appl. Surf. Sci. 254, 6076-6080 (2008).

32. S. W. Lee*, P. S. Chen, S. L. Cheng, M. H. Lee, H. T. Chang, C. H. Lee, and C. W. Liu, “Modified growth of Ge quantum dots using C2H4 mediation by ultra-high vacuum chemical vapor deposition,” Appl. Surf. Sci. 254, 6261-6264 (2008).

33. S. L. Cheng, Y. Y. Chen, S. W. Lee, and H. F. Hsu, “Formation of Mg2Ni alloy layers and kinetic studies in the binary Mg-Ni system,” Thin Solid Films 517, 5029-5032 (2009).

34. S. W. Lee*, C.-H. Lee, H. T. Chang, S. L. Cheng, and C. W. Liu, ” Evolution of composition distribution of Si-capped Ge islands on Si(001),” Thin Solid Films 517, 5029-5032 (2009).

35. C. W. Hu, T. C. Chang, C. H. Tu, C. N. Chiang, C. C. Lin, S. W. Lee, C. Y. Chang, S. M. Sze, and T. Y. Tseng, “Enhancement of NiSi-based nanocrystal formation by incorporating Ge elements for nonvolatile memory devices,” J. Electrochem. Soc. 156, H751–H755 (2009).

36. C.-H. Lee, Y.-Y. Shen, C. W. Liu, S. W. Lee, B.-H. Lin, and C.-H. Hsu, “SiGe nanorings by ultrahigh vacuum chemical vapor deposition,” Appl. Phys. Lett. 94, 141909 (2009).

37. S. W. Lee*, C. A. Chueh, and H. T. Chang, “Boron-induced strain relaxation in hydrogen-Implanted SiGe/Si heterostructures,” J. Electrochem. Soc. 156, H921–H924 (2009).

38. S. W. Lee*, B. L. Wu, and H. T. Chang, “Fabrication of nanometer-scale Si field emitters using self-assembled Ge nanomasks,” J. Electrochem. Soc. 157, H174–H177 (2010).

39. S. L. Cheng, C. Y. Chen, and S. W. Lee, “Kinetic investigation of the electrochemical synthesis of vertically-aligned periodic arrays of silicon nanorods on (001)Si substrate,” Thin Solid Films 518, S190-S195 (2010).

40. S. W. Lee*, H. T. Chang, C. H. Lee, S. L. Cheng, and C. W. Liu, “Composition redistribution of self-assembled Ge islands on Si (001) during annealing,” Thin Solid Films 518, S196-S199 (2010).

41. S. W. Lee*, S. S. Huang, H. C. Hsu, C. W. Nieh, W. C. Tsai, C. P. Lo, C. H. Lai, P. Y. Tsai, M. Y.  Wang, C. M. Wu, and M. D. Lei, “C redistribution during Ni silicide formation on Si1-yCy epitaxial layers,” J. Electrochem. Soc. 157, H297–H300 (2010).

42. C.-H. Lee, C. W. Liu, H. T. Chang, S. W. Lee, “Hexagonal SiGe quantum dots and nanorings on Si(110),” J. Appl. Phys. 107, 056103 (2010).

43. H. T. Chang, W. Y. Chen, T. M. Hsu, P. S. Shushpannikov, R. V. Goldstein, and S. W. Lee*, “Strain relaxation during formation of Ge nanolens stacks,” Electrochem. Solid-State Lett. 13, K43-K45 (2010).

44. W. W. Wu, C. W. Wang, K. N. Chen, S. L. Cheng, and S. W. Lee, “Enhanced growth of low-resistivity titanium silicides on epitaxial Si0.7Ge0.3 on (001)Si with a sacrificial amorphous Si interlayer,” Thin Solid Films 518, 7279-7282 (2010).

45. S. W. Lee*, S. H. Huang, S. L. Cheng, P. S. Chen, and W. W. Wu, “Ni silicide formation on epitaxial Si1-yCy/(001) layers,” Thin Solid Films 518, 7394-7397 (2010).

46. S. L. Cheng, C. Y. Zhan, S. W. Lee, and H. Chen, “Enhanced formation of periodic arrays of low-resistivity NiSi nanocontacts on (001)Si0.7Ge0.3 by nanosphere lithography with a thin interposing Si layer,” Appl. Surf. Sci. 257, 8712-8717 (2011).

47. S. L. Cheng, C. Y. Yang, S. W. Lee, H. F. Hsu, and H. Chen, “Enhanced formation and morphological stability of low-resistivity CoSi2 nanodot arrays on epitaxial Si0.7Ge0.3 virtual substrate,” Mater. Chem. Phys. 130, 609-614 (2011).

48. S. W. Lee*, H. T. Chang, J. K. Chang, and S. L. Cheng, “Formation mechanism of self-assembled Ge/Si/Ge composite islands,” J. Electrochem. Soc. 158, H1113-H1116 (2011).

49. M. H. Lee, B. F. Hsieh, S. T. Chang, and S. W. Lee, “Nickel Schottky junction on epi-Ge for strained Ge metal-oxide-semiconductor field-effect transistors source/drain engineering,” Thin Solid Films 520, 3379-3381 (2012).

50. S. L. Cheng, C. H. Lo, C. F. Chuang, and S. W. Lee, “Site-controlled fabrication of dimension-tunable Si nanowire arrays on patterned (001)Si substrates,” Thin Solid Films 520, 3309-3313 (2012).

51. K. R. Lee, H. T. Chang, J. K. Chang, C. J. Tseng, and S. W. Lee*, “Thermal stability of Ni(Ta) silicide films on ultra-thin silicon-on-insulator substrates,” J. Alloys Compd. 536, S407-S411 (2012).

52. C. H. Lai, C. K. Lin, S. W. Lee, H. Y. Li, J. K. Chang, and M. J. Deng, “Nanostructured Na-doped vanadium oxide synthesized using an anodic deposition technique for supercapacitor applications,” J. Alloys Compd. 536, S428-S431 (2012).

53. C. C. Lai, Y. J. Lee, P. H. Yeh*, and S. W. Lee*, “Formation mechanism of SiGe nanorod arrays by combining nanosphere lithography and Au-assisted chemical etching,” Nanoscale Res. Lett. 7, 140 (2012).

54. J. E. Chang, P. H. Liao, C. Y. Chien, J. C. Hsu, M. T. Hung, S. W. Lee, W. Y. Chen, T. M. Hsu, T. George, and P. W. Li, “Matrix and quantum confinement effects on optical and thermal properties of Ge quantum dots,” J. Phys. D 45, 105303 (2012).

55. S. L. Cheng, Y. C. Tseng, S. W. Lee, and H. Chen, “Phase formation and thermal stability of periodic Ni-silicide nanocontact arrays on epitaxial Si1−xCx layers on Si(100),” Appl. Surf. Sci. 258, 8713-8718 (2012).

56. C. C Wang, K. H. Chen, I. H. Chen, W. T. Lai, H. T. Chang, W. Y. Chen, J. C. Hsu, S. W. Lee, T. M. Hsu, M. T. Hung, and P. W. Li, “CMOS-compatible generation of self-organized 3-D Ge quantum dot array for photonic and thermoelectric applications,” IEEE Trans. Nanotechnol. 11, 657-660 (2012).

57. S. L. Cheng, Y. H. Lin, S. W. Lee, T. Lee, H. Chen, J. C. Hu, and L. T. Chen, “Fabrication of size-tunable, periodic Si nanohole arrays by plasma modified nanosphere lithography and anisotropic wet etching,” Appl. Surf. Sci. 263, 430-435 (2012).

58. W. H. Tu, C. H. Lee, H. T. Chang, B. H. Lin, C. H. Hsu, S. W. Lee, and C. W. Liu “A transition of three to two dimensional Si growth on Ge (100) substrate,” J. Appl. Phys. 112, 126101 (2012).

59. M. T. Hung, C. C. Wang, J. C. Hsu, J. Y. Chiou, S. W. Lee, T. M. Hsu, and P. W. Li, “Large reduction in thermal conductivity for Ge quantum dots embedded in SiO2 system,” Appl, Phys. Lett. 101, 251913 (2012).

60. S. L. Cheng, T. L. Hsu, T. Lee, S. W. Lee, J. C. Hu, and L. T. Chen, “Characterization and kinetic investigation of electroless deposition of pure cobalt thin films on silicon substrates,” Appl. Surf. Sci. 264, 732-736 (2013).

61. H. T. Cheng, I. P. Lin, S. C. Twan, W. Y. Woon, and S. W. Lee*, “Carbon re-incorporation in phosphorus-doped Si1-yCy epitaxial layers during thermal annealing,” J. Alloys Compd. 553, 30-34 (2013).

62. H. T. Cheng, C. C. Wang, J. C. Hsu, M. T. Hung, P. W. Li, and S. W. Lee*, “High quality multifold Ge/Si/Ge composite quantum dots for thermoelectric materials,” Appl, Phys. Lett. 102, 101902 (2013).

63. M. C. Chuang, H. M. Chien, Y. H. Chain, G. C. Chi, S. W. Lee, and W. Y. Woon, “Local anodic oxidation kinetics of chemical vapor deposition-grown graphene supported on a thin oxide buffered silicon template,” Carbon 54, 336-342 (2013).

64. M. Y. Lan, C. P. Liu, H. H. Huang, J. K. Chang, and S. W. Lee*, “Diameter-sensitive biocompatibility of anodic TiO2 nanotubes treated with supercritical CO2 fluid,” Nanoscale Res. Lett. 8, 150 (2013).

65. T. Lee, H. L. Lee, M. H. Tsai, S. L. Cheng, S. W. Lee, J. C. Hu, and L. T. Chen, “A biomimetic tongue by photoluminescent metal-organic frameworks,” Biosens. and Bioelectron. 43, 56-62 (2013).

66. T. Lee, J. W. Chen, H. L. Lee, T. Y. Lin, Y. C. Tsai, S. L. Cheng, S. W. Lee, J. C. Hu, and L. T. Chen, “Stabilization and spheroidization of ammonium nitrate: Co-crystallization with crown ethers and spherical crystallization by solvent screening,” Chem. Eng. J. 225, (2013) 809-817.

67. K. R. Lee, C. J. Tseng, J. K. Chang, I. M. Hung, J. C. Lin, and S. W. Lee*, “Strontium doping effect on phase homogeneity and conductivity of Ba1-xSrxCe0.6Zr0.2Y0.2O3-δ proton-conducting oxides,” Int. J. Hydrogen Energy 38, 11097-11103 (2013).

68. K. R. Lee, I. P. Lin, H. T. Chang, and S. W. Lee*, “Platinum silicide formation on Si1-yCy epitaxial layers,” J. Alloys Compd. 574, 415-420 (2013).

69. H. T. Chang, B. L. Wu, S. L. Cheng, T. Lee, S. W. Lee*, “Uniform SiGe/Si quantum-well nanorod and nanodot arrays fabricated using nanosphere lithography,” Nanoscale Res. Lett. 8, 349 (2013).

70. Y. P. Hsu, S. W. Lee, J. K. Chang, C. J. Tseng, K. R. Lee, C. H. Wang “Effects of platinum doping on the photoelectrochemical properties of sol-gel spin-coated Fe2O3 thin films,” Int. J. Electrochem. Sc. 8, 11615 - 11623 (2013).

71. M. Y. Lan, C. P. Liu, H. H. Huang, and S. W. Lee*, “Both Enhanced Biocompatibility and Antibacterial Activity in Ag-decorated TiO2 Nanotubes,” PLOS ONE 8, e75364 (2013).

72. M. Y. Lan, Y. B. Hsu, C. H. Hsu, C. Y. Ho, J. C. Lin and S. W. Lee*, “Induction of apoptosis by high-dose gold nanoparticles in nasopharyngeal carcinoma cells,” Auris Nasus Larynx 40, 563-568 (2013).

73. S. W. Lee, C. J. Tseng, J. K. Chang*, K. R. Lee, C. T. Chen, I. M. Hung, S. L. Lee, and J. C. Lin, “Synthesis and characterization of Ba0.6Sr0.4Ce0.8−xZrxY0.2O3−δ proton-conducting oxides for use as fuel cell electrolyte,” J. Alloys Compd. 586, S506-S510 (2014).

74. S. H. Huang, S. C. Twan, S. L. Cheng, T Lee, J. C. Hu, L. T. Chen, and S. W. Lee*, “Influence of Al addition on phase transformation and thermal stability of nickel silicides on Si(001),” J. Alloys Compd. 586, S362-S367 (2014).

75. K. R. Lee, Y. C. Chiang, I. M. Hung, J. K. Chang, C. J. Tseng, and S. W. Lee*, “Proton-conducting Ba1-xKxCe0.6Zr0.2Y0.2O3-δ oxides synthesized by sol-gel combined with composition-exchange method,” Ceram. Int. 40, 1865-1872 (2014).

76. M. Y. Lan, S. L. Lee, H. H. Huang, P. F. Chen. C. P. Liu, and S. W. Lee*, “Diameter selective behavior of human nasal epithelial cell on Ag-coated TiO2 nanotubes,” Ceram. Int. 40, 4745-4751 (2014).

77. S. L. Cheng, Y. H. Lin, S. W. Lee, and H. Chen, “Periodic arrays of nanopores made on single-crystalline silicon substrates with a self-assembled lithographic process,” Thin Solid Films 557, 376-381 (2014).

78. C. H. Wang, S. W. Lee, C. J. Tseng, J. W. Wu, I. M. Hung, C. M. Tseng, and J. K. Chang, “Nanocrystalline Pd/carbon nanotube composites synthesized using supercritical fluid for superior glucose sensing performance,” J. Alloys Compd. 615, S496-S500 (2014).

79. N. Wongittharom, T. C. Lee, I. M. Hung, S. W. Lee, Y. C. Wang, and J. K. Chang, “Ionic liquid electrolytes for high-voltage rechargeable Li/LiNi0.5Mn1.5O4 cells,” J. Mater. Chem. A 2, 3613-3620 (2014).

80. H. T. Chang, S. Y. Wang, and S. W. Lee*, “Designer Ge/Si composite quantum dots with enhanced thermoelectric properties,” Nanoscale 6, 3593-3598 (2014).

81. M. C. Huang, T. H. Wang, W. S. Chang, J. C. Lin, C. C. Wu, I. C. Chen, K. C. Peng, and S. W. Lee, “Temperature dependence on p-Cu2O thin film electrochemically deposited onto copper substrate,” Appl. Surf. Sci. 301, 369-377 (2014).

82. T. Nie, X. Kou, J. Tang, Y. Fan, M. Lang, L. T. Chang, C. P. Chu, L. He, S. W. Lee, F. Xiu, J. Zou, and K. L. Wang, “Superlattice of FexGe1−x nanodots and nanolayers for spintronics application,” Nanotechnology 25, 505702 (2014).

83. C. J. Tseng, J. K. Chang, I. M. Hung, K. R. Lee, and S. W. Lee*, “BaZr0.2Ce0.8-xYxO3-δ solid oxide fuel cell electrolyte synthesized by sol-gel combined with composition-exchange method,” Int. J. Hydrogen Energy 39, I4434-I4440 (2014).

84. S. R. Jian*, S. W. Lee*, J. K. Chang, C. J. Tseng, and J. Y. Juang, “Nanomechanical properties and fracture behaviors of Ba1-xKxCe0.6Zr0.2Y0.2O3-δ electrolytes by nanoindentation,” Sci. Adv. Mater. 6, 1691-1696 (2014).

85. H. M. Chien, M. C. Chuang, H. C. Tsai, H. W. Shiu, L. Y. Chang, C. H. Chen, S. W. Lee, J. D. White, W. Y. Woon, “On the nature of defects created on graphene by scanning probe lithography under ambient conditions,” Carbon 80, 318-324 (2014).

86. K. R. Lee, Y. P. Hsu, J. K. Chang, S. W. Lee, C. J. Tseng, and S. C. Jang, “Effects of Spin Speed on the Photoelectrochemical Properties of Fe2O3 Thin Films,” Int. J. Electrochem. Sc. 9, 7680-7692 (2014).

87. I. M. Hung, Y. J. Chiang, S. C. Jang, J. C. Lin, S. W. Lee, J. K. Chang, and C. S. His, “The proton conduction and hydrogen permeation characteristic of Sr(Ce0.6Zr0.4)0.85Y0.15O3-δ ceramic separation membrane,” J. Eur. Ceram. Soc. 35, 163-170 (2015).

88. C. H. Wang, Y. W. Yeh, N. Wongittharom, Y. C. Wang, C. J. Tseng, S. W. Lee, W. S. Chang, and J. K. Chang, “Rechargeable Na/Na0.44MnO2 cells with ionic liquid electrolytes containing various sodium solutes,” J. Power Sources 274, 1016-1023 (2015).

89. H. Y. Li, C. H. Yang, C. M. Tseng, S. W. Lee, C. C. Yang, T. Y. Wu, and J. K. Chang, “Electrochemically grown nanocrystalline V2O5 as high-performance cathode for sodium-ion batteries,” J. Power Sources 285, 418-424 (2015).

90. W. E. Yang, M. Y. Lan, S. W. Lee, J. K. Chang, and H. H. Huang, “Primary human nasal epithelial cell response to titanium surface with a nanonetwork structure in nasal implant applications,” Nanoscale Res. Lett. 10, 167 (2015).

91. I. M. Hung, Y. J. Chiang, S. C. Jang, J. C. Lin, S. W. Lee, J. K. Chang, and C. S. His, “Material characterization and electrochemical performance of Sr(Ce0.6Zr0.4)0.8Y0.2O3-δ proton conducting ceramics prepared by EDTA-citrate complexing and solid-state reaction methods,” Journal of the Ceramic Society of Japan 123(1436), 187-192 (2015).

92. K. T. Hsu, Y. J. Ren, H. W. Chen, P. H. Tsai, S. C. Jang, C. S. His, J. C. Lin, J. K. Chang, S. W. Lee, and I. M. Hung, “Evolution of the sintering ability, microstructure, and cell performance of Ba0.8Sr0.2Ce0.8−x−yZryInxY0.2O3-δ (x = 0.05, 0.1 y = 0, 0.1) proton-conducting electrolytes for solid oxide fuel cell,” Journal of the Ceramic Society of Japan 123(1436), 192-198 (2015).

93. M. H. Kuo, W. T. Lai, S. W. Lee, Y. C. Chen, C. W. Chang, W. H. Chang, T. M. Hsu, and P. W. Li, “Design of multifold Ge/Si/Ge composite quantum-dot heterostructures for visible to near-infrared photodetection,” Optics Express 40, 2401-2404 (2015).

94. P. Chen, T. Etzelstorfer, F. Hackl, N. A. Katcho, H. T. Chang, L. Nausner, S. W. Lee, T. Fromherz, J. Stangl, O. G. Schmidt, N. Mingo, and A. Rastelli, “Evolution of thermal, structural, and optical properties of SiGe superlattices upon thermal treatment,” Phys. Status Solidi A, 1-8 (2015).

95. C. H. Peng, P. S. Chen, J. W. Lo, T. W, Lin, and S. W. Lee, “Indium-free transparent TiOx/Ag/WO3 stacked composite electrode with improved moisture resistance,” J. Mater. Sci. 1-7 (2016).

96. P. S. Chen, C. H. Peng, Y. W. Chang, T. W, Lin, and S. W. Lee, “Improved indium-free transparent ZnO/metal/ZnO electrode through a statistical experimental design method,” Adv. Mater. Sci. Eng., 7258687 (2016).

97. Y. S. Sun, L. Zhang, H. Zhu, W. E. Yang, M. Y. Lan, S. W. Lee, and H. H. Huang, “Application of nitrogen plasma immersion ion implantation to titanium nasal implants with nanonetwork surface structure,” J. Vac. Sci. Technol. A 34, 041402 (2016).

98. X. F. Luo, S. Y. Wang, C. M. Tseng, S. W. Lee, W. H. Chiang, and J. K. Chang “Microplasma- assisted bottom-up synthesis of graphene nanosheets with superior sodium-ion storage performance,” J. Mater. Chem. A 4, 7624-7631 (2016).

99. T. Nie, J. Tang, X. Kou, G. Yin, S. W. Lee, X. Zhu, Q. He, L. T Chang, K. Murata, Y. Fan, and K. L. Wang, “Enhancing electric-field control of ferromagnetism through nanoscale engineering of high-Tc MnxGe1-x nanomesh,” Nat. Commun. 7, 12866 (2016).

100. C. L. Hsin, Y. Y. Tsai, and S. W. Lee, “Anisotropy of Seebeck Coefficient in Si/Ge Composite Quantum Dots” Appl, Phys. Lett. 109, 083901 (2016).

101. P. H. Huang, C. W. Liu, Y. Z. Guo, S. W Lee, Z. J. Lin, and K. W. Wang, “The Effect of Atomic Arrangements on the Oxygen Reduction Reaction Performance of Carbon-supported CoPtAg Catalyst,” Electrochimica Acta 219, 531-539 (2016).

102. T. C. Cheng, T. Y. Huang, C. F. Chen, C. J. Tseng, S. W. Lee, J. K. Chang, and S. C. Jang “Analysis of an intermediate-temperature proton-conducting SOFC hybrid system,” Int. J. Green Energy 13, 1640-1647 (2016).

103. T. W. Lin, P. S. Chen, Z. Y. Wang, K. W. Zhuang, S. C. Chiu, C. H. Peng, and S. W. Lee*, “Tailoring transparence in MoOx/Ag/MoOx electrode through Ag by O2/Ar plasma exposure,” Ceram. Int. 43, 308-315 (2017).

104. C. J. Tseng, J. K. Chang, K. R. Lee, I. M. Hung, S. C. Jang, and J. C. Lin, and S. W. Lee*, “Potassium doping optimization in proton-conducting Ba1-xKxCe0.6Zr0.2Y0.2O3-δ oxides for fuel cell applications,” J. Alloys Compd. 696, 251-256 (2017).

105. Y. J. Zeng, S. W. Lee, and M. Y. Lan, “Development of a Potential TiO2-nanofiber Platform for Isolation of Circulating Tumor Cells of Nasopharyngeal Carcinoma,” J. Nanosci. Nanotechnol., accepted (2017).

106. K. R. Lee, C. J. Tseng, J. K. Chang, K. W. Wang, Y. S. Huang, T. C. Chou, K. C. Chiu, L. D. Tsai, and S. W. Lee*, “Ba1-xSrxCe0.8-yZryY0.2O3-δ protonic electrolytes synthesized by hetero-composition-exchange method for solid oxide fuel cells,” Int. J. Hydrogen Energy, accepted (2017).

107. I. M. Hung, Y. J. Chiang, Y. H. Wang, S. C. Jang, and S. W. Lee, “Electrical Properties and Hydrogen Flux performance of Sr(Ce0.6Zr0.4)1-xYxO3 Ceramic Proton Conductors,” International Journal of Hydrogen Energy 42, 22149-22158 (2017).

108. J. W. Jhuang, K. R. Lee, J. K. Chang, C. T. Shen, Y. H. Lee, S. W. Lee*, and C. J. Tseng*, “Chemical stability and electrical and mechanical properties of BaZrxCe0.8-xY0.2O3 with CeO2 protection method,” Int. J. Hydrogen Energy 42, 22259-22265 (2017).

109. Y. J. Zeng, S. W. Lee, and M. Y. Lan, “Development of a Potential TiO2-nanofiber Platform for Isolation of Circulating Tumor Cells of Nasopharyngeal Carcinoma,” J. Nanosci. Nanotechnol. 17, 9095–9100 (2017).

110. Y. J. Zeng, S. C. Twan, K. W. Wang, H. H. Huang, Y. B. Hsu, C. Y. Wang, M. Y. Lan, and S. W. Lee*, “Enhanced Biocompatibility in Anodic TaOx Nanotube Arrays,” Nanoscale Res. Lett. 12: 557 (2017).

111. B. R. Pan, S.W. Lee, C. J. Tseng, C. L. Chang, W. C. Hung, and J. K. Chang, “Supercapacitive Performance of Porous Graphene Nanosheets in bis(trifluoromethylsulfony)imide and bis(fluorosulfonyl)imide Ionic Liquid Electrolytes,” Journal of Solid State Electrochemistry 22(7), 2197-2203 (2018).

112. S. Y. Yan, C. W. Liu, T. H. Huang, Y. Z. Guo, S. W. Lee, J. H. Wang, and K. W. Wang “Composition Effect of Oxygen Reduction Reaction on PtSn Nanowires: An Experimental and Computational Study,” Int. J. Hydrogen Energy 43, 4427-14438 (2018).

113. C. L. Hsin, J. H. Huang, P. Spiewak, Ł. Ciupiński, and S. W. Lee, “Anisotropy of thermal conductivity in In2Se3 nanostructures,” Applied Surface Science 494, 867-870 (2019).

114. K. T. Hsu, S. M. Song, P. H. Tsai, S. C. Jang, J. C. Lin, S. W. Lee, C. J. Tseng, I. M. Hung, and C. S. His, “Effect of the reactive surface area of proton-conducting Ni-Ba0.8Sr0.2Ce0.6Zr0.2Y0.2O3-δ anodes on cell performance,” Ceramics International 45, 14524-14532 (2019).

115. K. R. Lee, C. J. Tseng, J. K. Chang, K. W. Wang, Y. S. Huang, K. C. Chiu, L. D. Tsai, and S. W. Lee*, “Nano-fibrous SCY-Ni functional anodes for proton-conducting solid oxide fuel cells,” Journal of Power Sources 436, 226863 (2019).

116. S. W. Lee*, Y. W. Chen, E. C. Kuan, and M. Y. Lan*, “Dual-function nanostructured platform for isolation of nasopharyngeal carcinoma circulating tumor cells and EBV DNA detection,” Biosensors and Bioelectronics 142, 111509 (2019).

117. J. W. Juang, K. R. Lee, S. W. Lee, J. K. Chang, S. C. Jang, C. J. Tseng, “Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors,” International Journal of Hydrogen Energy 44, 21174-21180 (2019).

118. K. R. Lee, C. J. Tseng, S. C. Jang, J. C. Lin, K. W. Wang, J. K. Chang, T. C. Chen, and S. W. Lee*, “Fabrication of anode-supported thin BCZY electrolyte protonic fuel cells using NiO sintering aid,” International Journal of Hydrogen Energy 44, 23784-23792 (2019).

119. Y. W. Lai, K. R. Lee, S. Y. Yang, C. J. Tseng, S. C. Jang, I. Y. Tsao and S. W. Lee*, “Production of La0.6Sr0.4Co0.2Fe0.8O3-δ cathode with graded porosity for improving proton-conducting solid oxide fuel cells,” Ceramics International 45, 22479-22485 (2019).

120. C. T. Shen, K. R. Lee, Y. P. Hsien, S. W. Lee, J. K. Chang, S. C. Jang, and C. J. Tseng, “Effects of TiO2 and SDC addition on the properties of YSZ electrolyte,” International Journal of Hydrogen Energy 44, 29426-29431 (2019).

121. I. M. Hung, K. C. Fu, A. Khan, Y. H. Wang, S. W. Lee, J. C. Lin, C. J. Tseng, and S. C. Jang, “Preparation and characterization of high temperature Sr(Ce0.6Zr0.4)0.9Y0.1O3-δ/YBaCo2O5+δ mixed proton-electron composite membrane,” International Journal of Hydrogen Energy 44, 29547-29553 (2019).

122. A. Nadtochiy, V. Kuryliuk, V. Strelchuk, O. Korotchenkov, P. W. Li, and S. W. Lee, “Enhancing the Seebeck effect in Ge/Si through the combination of interfacial design features,” Scientific Reports 9, 16335 (2019).

123. T. H. Huang, H. S. Zheng, Y. M. Cheng, C. W. Liu, S. W. Lee, J. H. Wang, and K. W. Wang, “The preparation and mechanistic study of highly effective PtSnRu ternary nanorod catalysts toward the ethanol oxidation reaction,” Sustainable Energy Fuels 3, 3352-3362 (2019).

124. C. Gadre, X. Yan, T. Aoki, S. W. Lee, and X. Pan, “Mapping the nanoscale redshift of optical phonon modes in a strained quantum dot system,” Microscopy and Microanalysis 25 (S2), 626-627 (2019).

125. C. Y. Chen, J. R. Jiang, W. S. Chuang, M. S. Liu, and S. W. Lee*, “Development of crystalline Cu2S nanowires via a direct synthesis process and its potential applications,” Nanomaterials 10(2), 399 (2020).

126. J. D. Xie, J. Patra, P. C. Rath, W. J. Liu, C. Y. Su, S. W. Lee, C. J. Tseng, Y. A. Gandomi, and J. K. Chang, “Highly concentrated carbonate electrolyte for Li-ion batteries with lithium metal and graphite anodes,” Journal of Power Sources 450, 227657 (2020).

127. S. Dai, T. H. Huang, P. C. Chien, C. A. Lin, C. W. Liu, S. W. Lee, J. H. Wang, K. W. Wang, and X Pan, “Optimization of Pt–oxygen-containing species anodes for ethanol oxidation reaction: high performance of Pt-AuSnOx electrocatalyst,” Journal of Physical Chemistry Letters 11, 2846-2853 (2020).

128. C. Y. Chen, T. C. Lin, W. S. Chuang, J. K. Chang, and S. W. Lee*, “Germanium-assisted growth of titanium dioxide nanowires for enhanced photocatalytic and electron emission performance,” Applied Surface Science 530, 147204 (2020).

129. J. D. Xie, K. H. Hsu, J. Patra, C. Y. Su, S. W. Lee, Y. A. Gandomi, M. D. Ger, N. W. Pu, and J. K. Chang, “Hydrous ruthenium oxide-tantalum pentoxide thin film electrodes prepared by thermal decomposition for electrochemical capacitors,” Ceramics International 46, 16636-16643 (2020).

130. J. D. Xie, J. Patra, A. T. I. Muhammad, Y. A. Gandomi, T. Y. Wu, S. W. Lee, and J. K. Chang, “Graphene induced crystallinity and hydrous state variations of ruthenium oxide electrodes for superior energy storage performance,” Electrochimica Acta 360, 136995 (2020).

131. C. Gadre, X. Yan, Q. Song, J. Li, L. Gu, T. Aoki, S. W. Lee, G. Chen, R. Wu, and X. Pan, “Nanoscale Phonon Mapping of Single SiGe Quantum Dots by Vibrational EELS,” Microscopy and Microanalysis 26(S2), 958-959 (2020).

132. J. W. Jhuang, K. R. Lee, S. W. Lee, B. Wang, C. Xia, I. M. Hung, and C. J. Tseng, “A triple (e−/O2−/H+) conducting perovskite BaCo0.4Fe0.4Zr0.1Y0.1O3-δ for low temperature solid oxide fuel cell,” International Journal of Hydrogen Energy 46(15), 9767-9774 (2021).

133. S. Dai, T. H. Huang, W. I. Liu, C. W. Hsu, S. W. Lee, T. Y. Chen, Y. C. Wang, J. H. Wang, and K. W. Wang, “Enhanced CO2 electrochemical reduction performance over Cu@AuCu catalysts at high noble metal utilization efficiency,” Nano Letters 21, 9293-9300 (2021).

134. O. Nasr*, J. R. Jiang, W. S. Chuang, S. W. Lee*, and C. Y. Chen*, “Ag nanoparticle-decorated Cu2S nanosheets for surface enhanced Raman spectroscopy detection and photocatalytic applications,” Nanomaterials 11(10), 2508 (2021).

135. T. H. Huang, S. Lin, S. W. Lee, C. A. Lin, S. Dai, Y. Jia, and K. W. Wang, “PtAuSn nanorod catalysts with a beneficial core/shell structure for oxygen reduction electrocatalysis,” ACS Applied Energy Materials 4, 4, 3067-3073 (2021).

136. J. D. Xie, A. T. I. Muhammad, J. Patra, Y. A. Gandomi, Q. F. Dong, S. W. Lee, C. J. Tseng, and J. K. Chang, “Creating electronic and ionic conductivity gradients for improving energy storage performance of ruthenium oxide electrodes,” Journal of Alloys and Compounds 862, 158013 (2021).

137. C. L. Hsin*, J. C. Hsiao, Y. M. Chen, and S. W. Lee*, “Thermoelectric properties of Zn- and Ce-alloyed In2O3 and the effect of SiO2 nanoparticle additives,” Nanotechnology, 33, 135712 (2022).

138. O. Nasr, Y. Y. Lin, Y. S. Chou, C. W. Huang, W. S. Chuang, S. W. Lee*, and C. Y. Chen*, “Surface-enhanced Raman scattering of CoTiO3@Ag nanofibers for high-performance sensing applications,” Applied Surface Science 573, 151509 (2022).

139. S.D. Safian, N.I.A. Malek, Z. Jamil, S.W. Lee, C.J. Tseng, and N. Osman, “Study on the surface segregation of mixed ionic-electronic conductor lanthanum-based perovskite oxide La1−xSrxCo1−yFeyO3−δ materials,” International Journal of Energy Research 46, 7101-7117 (2022).

140. C.A. Gadre, X. Yan, Q. Song, J. Li, L. Gu, H. Huyan, T. Aoki, S.W. Lee, G. Chen, R. Wu, and X. Pan, “Nanoscale imaging of phonon dynamics by electron microscopy,” Nature 606(7913), 292-297 (2022).

141. H.Y. Liu, S.F. Lin, D.W. Lee, J. Chou, S. W. Lee*, and K.W. Wang*, “Selective Formate Production from the Electrochemical CO2 Reduction Reaction of Surface Oxide-Modified InSn4 Binary Catalysts,” ACS Applied Energy Materials 5, 8, 9895–9901 (2022).

142. Y. Jiang, T.W. Huang, H.L. Chou, L. Zhou, S.W. Lee, K.W. Wang, and S. Dai, “Revealing and magnifying interfacial effects between ruthenium and carbon supports for efficient hydrogen evolution,” Journal of Materials Chemistry A, 10, 17730 (2022).

143. J. Patra, B.R. Pan, M. H. Lin, C.Y. Su, S.W. Lee, T.Y. Wu, R.S. Dhaka, C.T. Hsieh, and J.K. Chang, “Nitrogen-doped holey graphene additive for high-performance electric double-layer supercapacitors,” Electrochimica Acta 425, 140713 (2022).

144. Sasmoko, S.W. Lee, M. Bhavanari, W. Wijayanti, I.N.G. Wardana, A.A. Azhari, and C.J. Tseng, “Thermodynamic Analysis of Three Internal Reforming Protonic Ceramic Fuel Cell‑Gas Turbine Hybrid Systems,” Applied Sciences 12, 11140 (2022).

145. M. A. Umer, Y.C. Yu, K.R. Lee, C.J. Tseng, S.Y. Chen, and S.W. Lee*, “Three-dimensional NiO-decorated La0.6Sr0.4Co0.2Fe0.8O3-δ nanofibrous mesh as high-performance cathode for protonic ceramic electrochemical cells. ACS Applied Energy Materials, 6, 3, 1621–1629 (2023).

146. C.L. Tang, T.I. Chou, S.R. Yang, Y.J. Lin, Z.K. Ye, S.W. Chiu, S.W. Lee, and K.T. Tang, “Development of a nondestructive moldy coffee beans detection system based on electronic nose,” IEEE Sensors Letters 7(2), 1-4 (2023).

147. P. Rath, M.S. Liu, S.T. Lo, R. Dhaka, D. Bresser, C.C. Yang, S.W. Lee*, and J.K. Chang*, “Suppression of dehydrofluorination reactions of Li0.33La0.557TiO3-nanofiber-dispersed poly(vinylidene fluoride-co-hexafluoropropylene) electrolyte for quasi-solid-state Lithium-metal batteries by fluorine-rich succinonitrile interlayer,” ACS Applied Materials & Interfaces, 15(12), 15429–15438 (2023).

148. Y. Jia, H.S. Hsu, W.C. Huang, D.W. Lee, S.W. Lee, T.Y. Chen, L. Zhou, J.H. Wang, K.W. Wang, and S. Dai, “Probing the roles of Indium oxides on Copper catalysts for enhanced selectivity during CO2-to-CO electrochemical reduction,” Nano Letters, 23(6), 2262–2268 (2023).

149. P.C. Cheng, S.W. Lee, K.R. Lee, N. Setiawan, M. Bhavanaria, C.T. Shen, N. Osman, and C.J. Tseng, “Carbon resistant Ni1-xCux-BCZY anode for methane-fed protonic ceramic fuel cell,” International Journal of Hydrogen Energy, 48(30), 11455-11462 (2023).

150. Sasmoko, S.W. Lee, M. Bhavanaria, W. Wijayanti, N. Osman, and C.J. Tseng, “System analysis of a protonic ceramic fuel cell and gas turbine hybrid system with methanol reformer,” International Journal of Hydrogen Energy, 48(30), 11421-11430 (2023).

151. C.L. Hsin, T.C. Lee, Y.C. Fu, Y.H. Tsai, and S.W. Lee, “Formation of porous Mg2(SiSn) by nanoparticle alloying and their thermoelectric properties,” Materials Research Bulletin 161, 112156 (2023).

152. P.C. Cheng, K.R. Lee, M. Bhavanari, P.C. Su, N. Osman, S.W. Lee*, and C.J. Tseng*, “Enhancing protonic ceramic fuel cell performance through nanomilling of BCZY electrolyte powder,” Ceramics International 49(19) 32172-32180 (2023).

153. M.A. Umer, C.Y. Cheng, B.R. Lai, C.J. Tseng, S.Y. Chen*, and S.W. Lee*, “Growth of Gd0.3Ca2.7Co3.82Cu0.18O9-δ-BaCe0.6Zr0.2Y0.2O3-δ bulk heterojunction cathode interlayer by pulsed laser deposition for enhancing protonic solid oxide fuel cell performance,” Applied Surface Science 638, 158139 (2023).

154. T.L. Lee, S.C. Huang, C.C. Huang, S.W. Lee, C.H. Huang, M.Y. Lan, and C.Y. Su, “Enhancing circulating tumor cell capture: Amin-functionalized bilayer graphene biosensing with integrated chip-level system for point-of-care testing,” Carbon 216, 118576 (2024).

155. M.X. Jiang, S.R. Yang, I.Y. Tsao, B. S. Wardhana, S.F. Hsueh, J. S.C. Jang, C.L. Hsin*, and S.W. Lee*, “Enhanced thermoelectric properties of p-type Sn-substituted higher Manganese silicides,” Nanomaterials 14, 494 (2024).

156. S.R. Yang, S.L. Cheng, H.T. Hsu, B. S. Wardhana, M.X. Jiang, I.Y. Tsao, W.H. Hung, K.W. Wang*, and S.W. Lee*, “Enhancing the performance of quasi-solid-state flexible supercapacitors with Ag and MnO2 co-decorated carbon nanofibrous electrodes,” Electrochimica Acta 483, 143986 (2024).

157. D. Mohanty, K.Y. Chao, T.N. Lin, S.W. Lee, C.J. Tseng, and I.M. Hung, “Microstructure of hydrogen electrode catalyst layer materials for solid oxide electrolysis cells,” International Journal of Hydrogen Energy, in press (2024).

158. M. A. Umer, C.Y. Cheng, K.C. Tsai, C.J. Tseng, S.Y. Chen*, and S.W. Lee*, “Intermediate-temperature protonic solid oxide fuel cell made of pulsed laser deposition-based functional layers and interlayers on an optimally tailored anode substrate”, Journal of Power Sources 613, 234872 (2024).

 

B. 國際期刊論文 (Engineering Index)：

1. C.-H. Lee, C. M. Lin, C. W. Liu, H. T. Chang, S. W. Lee, P. Shushpannikov, V. A. Gorodtsov, and R. V. Goldstein, “SiGe quantum rings by ultra-high vacuum chemical vapor deposition,” ECS Trans. 16(10), 647-657 (2008).

2. C. C. Lai, J. S. Lin, S. L. Cheng, and S. W. Lee*, “Oxidation behaviors of SiGe nanowire arrays fabricated by Au-assisted wet chemical etching,” ECS Trans. 25(24), 87–93 (2010).

3. C. H. Lee, W. H. Tu, C. M. Lin, H. T. Chang, S. W. Lee, and C. W. Liu, “Surface orientation effects on SiGe quantum dots and nanorings formation,” ECS Trans. 33, 649-659 (2010).

4. H. L. Lee, T. Lee, Z. X. Liu, M. H. Tsai, Y. C. Tsai, T. Y. Lin, S. L. Cheng, S. W. Lee, J. C. Hu, and L. T. Chen, “A taste and odor sensing by photoluminescence responses of luminescent metal organic frameworks,” Adv. Mat. Res. 699, 392-397 (2013).

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C. 國內期刊論文：

1. 林依頻、黃仕賢、李勝偉*，“鎳鉑矽化物於矽碳磊晶層上生成行為之探討”，奈米通訊，第18卷，pp. 30-37，2011。

2. 李侃融、曾重仁、張仍奎、洪逸明、李勝偉*，“質子傳輸型電解質之研究”，中華民國陶業研究學會會刊，第32卷，pp. 21-31，2013。

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D. 國際會議論文：

1. S. W. Lee, Y. H. Peng, H. H. Cheng, C. H. Kuan, and L. J. Chen, ”The strain relaxation Mechanism of SiGe growth with a low temperature Si buffer layer by molecular beam epitaxy,” International Conference on Advanced Materials (ICAM), Cancun, Mexico, 2001.

2. S. W. Lee, Y. H. Peng, H. C. Chen, H. H. Cheng, C. H. Kuan, and L. J. Chen, ”The strain relaxation Mechanism of SiGe growth with a low temperature Si buffer layer by molecular beam epitaxy,” The 48th International Symposium of American Vacuum Society, San Francisco, USA, 2001.

3. P. S. Chen, S. W. Lee, Y. H. Peng, Z. Pei, M. -J. Tsai, and C. W. Liu,” Novel composite Ge/Si/Ge quantum dots with high PL efficiency and improved uniformity,” First International SiGe Technology and Device Meeting (ISTDM), Nagoya, Japan, 2003.

4. H. C. Chen, S. W. Lee, S. L. Cheng, L. J. Chen, P. S. Chen, and C. W. Liu,” Enhanced growth of amorphous interlayer in Ti thin film on strained Si/SiGe relaxed substrates,” First International SiGe Technology and Device Meeting (ISTDM), Nagoya, Japan, 2003.

5. S. W. Lee, L. J. Chen, P. S. Chen, M. -J. Tsai, and C. W. Liu,” The growth of high-quality uniform SiGe films by introducing an intermediate Si layer,” International Conference on Metallurgical Coatings and Thin Films (ICMCTF), San Diego, USA, 2003.

6. S. W. Lee, L. J. Chen, P. S. Chen, M. -J. Tsai, and C. W. Liu,” Improved quality of Ge quantum dots in Ge/Si stacked layers by pre-intermixing treatments,” First International SiGe Technology and Device Meeting (ISTDM), Nagoya, Japan, 2003.

7. S. W. Lee, L. J. Chen, P. S. Chen, M. -J. Tsai, C. W. Liu, T. Y. Chien, and C. T. Chia, “Growth of high-quality SiGe films with a buffer layer containing Ge quantum dots,” The 8th IUMRS International Conference on Advanced Materials (IUMRS-ICAM 2003), Yokohama, Japan, 2003.

8. P. S. Chen, S. W. Li, Y. H. Liu, M. H. Lee, M. ‑J. Tsai, and C. W. Liu, “Ultra-high vacuum chemical vapor deposition of hetero-epitaxial SiGe:C and SiC thin films on Si(001) with ethylene (C2H4) precursor as carbon source,” Second International SiGe Technology and Device Meeting (ISTDM), Frankfurt, Germany, 2004.

9. S. W. Lee, M. H. Lee, P. S. Chen, M. -J. Tsai, C. W. Liu, and L. J. Chen, “The growth of high-quality SiGe films with an intermediate Si layer for strained Si nMOSFETs”, Second International SiGe Technology and Device Meeting (ISTDM), Frankfurt, Germany, 2004.

10. P. S. Chen, S. W. Lee, M. -J. Tsai, and C. W. Liu, “Carbon mediation on the growth of self-assembled Ge quantum dots on Si(100) by ultrahigh vacuum chemical vapor deposition,” The 51h International Symposium of American Vacuum Society, Anaheim, USA, 2004.

11. S. W. Lee, P. S. Chen, Y. L. Chieh, M. -J. Tsai, C. W. Liu, and L. J. Chen, “Strained Si n-channel metal-oxide-semiconductor transistor on relaxed SiGe film with an intermediate Si:C layer,” The 51h International Symposium of American Vacuum Society, Anaheim, USA, 2004.

12. S. W. Lee, Y. L. Chueh, P. S. Chen, H. C. Chen, C. W. Liu, and L. J. Chen, “Field emission of self-assembled Ge quantum dots grown by ultrahigh vacuum chemical vapor deposition,” Forth International Conference on Silicon Epitaxy and Heterostructures (ICSI-4), Awaji Island, Japan, 2005.

13. S. W. Lee*, H. T. Chang, C.-H. Lee, C. A. Chueh, S. L. Cheng, W. W. Wu, and C. W. Liu, “Vertical self-alignment of SiGe nanolenses on Si(001),” 214th ECS Meeting, Honolulu, USA, 2008.

14. W. W. Wu and S. W. Lee, “Enhanced growth of low-resistivity titanium silicides on epitaxial Si0.7Ge0.3 on (001)Si with a sacrificial amorphous Si interlayer,” 214th ECS Meeting, Honolulu, USA, 2008.

15. W. W. Wu, C. W. Wang, and S. W. Lee, “Controlled Large Strain of Si in the NiSi/Si/NiSi Nanowire Heterostructure,” 216th ECS Meeting, Vienna, Austria, 2009.

16. C. A. Chueh, S. W. Lee*, C. S. Lee, Y. F. Hsieh, and W. W. Wu, “Fabrication of SiGe Nanowire Arrays Using Au-Assisted Chemical Etching,” 216th ECS Meeting, Vienna, Austria, 2009.

17. C. C. Lai, S. L. Cheng, and S. W. Lee*, “Size control of SiGe nanowire arrays using Au-assisted chemical etching and subsequent oxidation,” 2nd International Microprocesses and Nanotechnology Conference (MNC 2009), Sapporo, Japan, 2009.

18. S. L. Cheng, M. F. Chen, and S. W. Lee, “Kinetic Studies on the Synthesis of Vertically-Aligned CuO Nanowires by Thermal Oxidation,” 2nd International Microprocesses and Nanotechnology Conference (MNC 2009), Sapporo, Japan, 2009.

19. S. H. Huang, J. S. Lin, and S. W. Lee*, “Formation of Ni silicides on Si1-yCy epitaxial layers,” TACT 2009 International Thin Films Conference, Taipei, Taiwan, 2009. (Best Poster Paper Award)

20. C. H. Chung, T. L. Hsu, S. W. Lee, H. F. Hsu, and S. L. Cheng, “Transmission Electron Microscopy Investigation of the Growth Kinetics of Electroless Pure Cobalt Thin Films on (001)Si,” TACT 2009 International Thin Films Conference, Taipei, Taiwan, 2009.

21. S. L. Cheng, C. H. Chung, and S. W. Lee, “Synthesis of Size- and Site-Controlled SiGe Nanorods on Epitaxial Si0.8Ge0.2 Virtual Substrates,” 2nd IEEE International NanoElectronics Conference (IEEE INEC 2010), Hong Kong, 2010.

22. K. R. Lee, H. T. Chang, J. K. Chang, C. J. Tseng, and S. W. Lee*, “Formation and thermal stability of Ni(Ta)Si films on silicon-on-insulator substrates,” 18th International Symposium on Metastable, Amorphous and Nanostructured Materials, Gijon, Spain (2011).

23. C. M. Wang, S. L. Cheng, and S. W. Lee*, “Investigations of Ni(Ti) silicidation on pre-amorphized Si (001).” 7th International Conference on Silicon Epitaxy and Heterostructures, Leuven, Belgium (2011).

24. H. T. Chang, B. L. Wu, S. L. Cheng, and S. W. Lee*, “Large-scale SiGe/Si superlattice quantum dot arrays fabricated by nanosphere lithography,” 24th International Microprocesses and Nanotechnology Conference, Kyoto, Japan (2011).

25. S. L. Cheng, Y. C. Tseng, and S. W. Lee, “Interfacial reactions of nickel metal nanodots on single-crystal (001)Si1-xCx substrates,” 24th International Microprocesses and Nanotechnology Conference, Kyoto, Japan (2011).

26. H. T. Chang, S. Y. Wang, M. T. Hung, P. W. Li, and S. W. Lee*, “Formation mechanism and morphological controlling of self-assembled Ge/Si/Ge composite quantum dots,” 216th ECS Meeting, Seattle, USA (2012).

27. S. H. Huang, S. C. Twan, J. K. Chang, C. J. Tseng, and S. W. Lee*, “Influences of Al addition on the thermal stability of NiSi films on Si (001),” 19th International Symposium on Metastable, Amorphous and Nanostructured Materials, Moscow, Russia (2012).

28. K. R. Lee, C. J. Tseng, J. K. Chang, I. M. Hung, J. C. Lin, and S. W. Lee*, “Strontium doping effect on phase homogeneity and conductivity of Ba1-xSrxCe0.6Zr0.2Y0.2O3-δ proton-conducting oxides,” 13th National Hydrogen Energy Conference & 5th Symposium on Hydrogen Energy for Scholars from the Mainland, Hong Kong, and Taiwan, Nanjing, China (2012).

29. C. P. Liu, M. Y. Lan, J. K. Chang, H. H. Huang, and S. W. Lee*, “Biocompatibility of human fibroblast cells on photo-induced hydrophilic TiO2 nanotubes,” ThinFilms2012 - 6th Internl Conf on Technological Advances of Thin Films & Surface Coatings, Singapore (2012).

30. H. T. Chang, B. L. Wu, S. L. Cheng, and S. W. Lee*, “SiGe/Si superlattice-quantum-dot arrays fabricated by using nanosphere lithography,” 8th International Conference on Silicon Epitaxy and Heterostructures, Fukuoka, Japan (2013).

31. K. R. Lee, J. K. Chang, C. J. Tseng, I. M. Hung, and S. W. Lee*, “High-quality K-doped Ba(Ce,Zr)YO3 oxides synthesized by sol-gel combined with composition-exchange method for use in fuel cell electrolyte,” 20th International Symposium on Metastable, Amorphous and Nanostructured Materials, Torino, Italy (2013).

32. M. Y. Lan, C. P. Liu, H. H. Huang, and S. W. Lee*, “Concurrently enhanced biocompatible and antibacterial Ag-decorated TiO2 nanotubes,” 20th International Symposium on Metastable, Amorphous and Nanostructured Materials, Torino, Italy (2013).

33. C. H. Wang, J. W. Wu, S. W. Lee, C. J. Tseng, I. M. Hung, C. M. Tseng, and J. K. Chang, “Nanocrystalline Pd/carbon nanotubes composites synthesized using supercritical fluid for superior electrochemical sensing performance,” 20th International Symposium on Metastable, Amorphous and Nanostructured Materials, Torino, Italy (2013).

34. J. S. Lin, H. P. Wang, Jr H. He, and S. W. Lee*, “Self-cleaning and low-refractive Si/SiGe nanohole arrays for photovoltaic applications,” 20th International Symposium on Metastable, Amorphous and Nanostructured Materials, Torino, Italy (2013).

35. C. J. Tseng, J. K. Chang, I. M. Hung, K. R. Lee, and S. W. Lee*, “BaZr0.2Ce0.8-xYxO3-δ solid oxide fuel cell electrolyte synthesized by sol-gel combined with composition-exchange method,” 5th World Hydrogen Technologies Convention, Shanghai, China (2013).

36. H. T. Chang, P. W. Li, and S. W. Lee*, “High quality multifold Ge/Si/Ge composite quantum dots for thermoelectric Materials: Their formation mechanism and thermoelectric properties,” International Union of Materials Research Society - ICA 2013, India (2013). (Invited Talk)

37. H. T. Chang, P. W. Li, and S. W. Lee*, “Multifold Ge/Si composite quantum dots for thermoelectric applications,” 2014 Materials Research Society (MRS) Spring Meeting & Exhibit, San Francisco, USA (2014).

38. K. C Tseng, P. C. Pan, Y. T Lin, T. H. Li, P. H. Yeh, and S.W. Lee*, “Gigantic enhancement in broadband photo detection of electrospun metal-oxide nanosensors,” The Sixth Advanced Nanomaterials International Conference, Aveiro, Portugal (2015).

39.  H. C. Lin, M. X. Jiang, C. L. Hsin, J. K. Chang, and S. W. Lee*, “Enhanced thermoelectric properties in one­dimensional Mg/Ge nanostructures,” Pacific Rim Meeting on Electrochemical and Solid-state Science, Hawaii, USA (2016).

40.  M. X. Jiang, K. Teng, and S. W. Lee*, “All solid-state planar MoOx/Ag micro-supercapacitors with high performance,” Nanotech France 2017 Conference and Exhibition, Paris, France (2017).

41.  J. W. Jhuang, K. R. Lee, S. W. Lee, J. K. Chang, S. C. Jang, amd C. J. Tseng, “Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors,” 2018 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Singapore, Singapore (2018).

42.  K. R. Lee, C. J. Tseng, J. K. Chang, K. W. Wang, Y. S. Huang, T. C. Chou, L. D. Tsai, and S. W. Lee*, “Nano-fibrous SrCe0.8Y0.2O3-δ-Ni anode functional layer for proton-conducting solid oxide fuel cells,” 2018 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Singapore, Singapore (2018).

43.  C. T. Shen, K. R. Lee, Y. P. Hsien, S. W. Lee, J. K. Chang, S. C. Jang, and C. J. Tseng, “Effects of TiO2 and SDC addition on the properties of YSZ electrolyte,” The 1st International Symposium on Hydrogen Energy and Energy Technologies, Nagoya, Japan (2018).

44.  I. M. Hung, Y. T. Huang, A. Khan, S. W. Lee, C. J. Tseng, and P. C. Cheng, “Effect of microstructure on the electrochemical performance of Bi0.5Sr0.1La0.4MnO3-δ-Bi0.67Ca0.15Zr0.18O1.5-δ composite cathode for intermediate-temperature solid oxide fuel cell,” 2nd International Symposium on Hydrogen Energy and Energy Technologies, Osaka, Japan (2019).

45.  K.R. Lee, C.J. Tseng, S.C. Jang, J.C. Lin, I.M. Hung, and S.W. Lee*, “Nanostructured electrode for proton-conducting SOFCs,” 2020 Hydrogen power theoretical & Engineering Solutions International Symposium, online conference (2020).

46.  W. Y. Huang, K. R Lee, C. J. Tseng, and S. W. Lee*, “Nd-doped LSCF nano-fibrous cathode for proton conducting solid oxide fuel cells,” 2021 Hydrogen Power Theoretical& Engineering Solutions International Symposium, online conference (2021).

47.  P. C. Chen and S. W. Lee*, “Nanoporous Nickel used as current collectors in 3D all-solid-state micro-supercapacitors,” 2021 The Materials Research Society-Taiwan International Conference, online conference (2021).

48.  W. Y. Huang, K. R Lee, J. G. Yang, C. J. Tseng, and S. W. Lee*, “Nd-doped LSCF nanofibers used as cathode for proton-conducting solid oxide fuel cells,” 2021 The Materials Research Society-Taiwan International Conference, online conference (2021).

49.  Y. C. Yu, K. R. Lee, C. J. Tseng, and S. W. Lee*, “NiO-LSCF composite nanofibrous cathode for proton-conducting solid oxide fuel cells,” 2021 The Materials Research Society-Taiwan International Conference, online conference (2021).

50.  M. S. Liu, L. D. Thai, Y. J. Chiang, C. E. Liu, and S. W. Lee*, “Improved densification and lithium ion conductivity in garnet-type Li7-xLa3Zr2-xTaxO2 with composite sintering aids,” 2021 The Materials Research Society-Taiwan International Conference, online conference (2021).

51.  W. Y. Huang, K. R Lee, Jason S.C. Jang, J. C. Lin, I. M. Hung, C. J. Tseng, and S. W. Lee*, “Nd-doped LSCF nano-fibrous cathode for proton-conducting solid oxide fuel cells,” 7th International Symposium on Advanced Ceramics and Technology for Sustainable Energy Applications toward a Low Carbon Society, virtual conference (2021). - Best Poster Award

52.  S. W. Lee*, W. Y. Huang, Y. C. Huang, and C. J. Tseng, Proton-conducting solid oxide fuel cells with NLSCF cathode, 23rd World Hydrogen Energy Conference, Istanbul, Turkey (2022).

53.  W. Y. Huang, K. R. Lee, C. J. Tseng, and S. W. Lee*, “NLSCF nanostructured cathode for proton-conducting solid oxide fuel cells,” 2022 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Taipei, Taiwan (2022).

54.  A. Umer, Y. C. Yu, K. R. Lee, C. J. Tseng, S. Y, Chen, and S. W. Lee*, “NiO-incorporated LSCF nanofibrous cathode for proton-conducting solid oxide fuel cells,” 2022 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Taipei, Taiwan (2022).

55.  T. Miruszewski, J. Pośpiech, M. Czudec, S. Wachowski, A. Mielewczyk-Gryń, S.W. Lee, C.J. Tseng, and M. Gazda, “Electrochemical performance of protonic-ceramic fuel cells with mixed ionic-electronic conductive positrode,” 15th International Symposium on Systems with Fast Ionic Transport, Dubrovnik, Croatia (2023).

56.  P. R. Lai, C. Y. Cheng, W. M. Yen, I. M. Hung, C. J. Tseng, and S. W. Lee* “Self-formed ultrathin BCZY electrolyte for proton-conducting solid oxide fuel cells” 2023 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Muscat, Oman (2023).

57.  Z.X. Lee, Y.F. Hsu, H.C. Shi, J.K. Chang, K.W. Wang, and S.W. Lee*, “Enhanced hydrogen evolution reaction performance and stability of Palladium-Iron hydride in acidic media,” 2024 Hydrogen Power Theoretical& Engineering Solutions International Symposium, Hiroshima, Japan (2024).

​

E. 國內會議論文：

1. 吳伯倫、張宏臺、闕啟安、李勝偉*、羅廣禮，“利用自組裝鍺量子點為奈米遮罩製作高效率矽基場發射源”，2008中國材料科學學會年會，新竹，台灣，(2008)。

2. 張宏臺、闕啟安、李勝偉*、李承翰、劉致為，“矽披覆量對自組裝鍺量子點形貌及成份之影響”，2008中國材料科學學會年會，新竹，台灣，(2008)。

3. 闕啟安、張宏臺、李勝偉*、鄭紹良、李敏鴻，“以選擇性化學蝕刻法探討自組裝鍺量子點之成份分佈”， 2008中國材料科學學會年會，新竹，台灣，(2008)。

4. 黃仕賢、林政勳、李勝偉*，“The Effects of C atoms on the Solid-Phase Reaction of Ni/Si1-yCy (y=0.01 and 0.02) Systems”，2009中國材料科學學會年會，花蓮，台灣，(2009)。

5. 吳伯倫、林政勳、李勝偉*，“利用奈米球遮罩及反應性離子蝕刻法製作大面積有序矽鍺超晶格奈米陣列”，2009中國材料科學學會年會，花蓮，台灣，(2009)。

6. 闕啟安、張宏臺、陳邦旭、李勝偉*，“Boron-Induced Relaxation in Hydrogen-Implanted SiGe/Si(001) Heterostructures”， 2009中國材料科學學會年會，花蓮，台灣，(2009)。

7. 張宏臺、陳邦旭、李勝偉*，“鍺/矽/鍺複合量子點之成長機制與發光性質探討”，2009中國材料科學學會年會，花蓮，台灣，(2009)。

8. 董彥廷、蔡睿翰、張宏臺、李勝偉，“奈米結構化氧化鋁鋅薄膜之製作與光電性質研究”，中國材料科學學會年會，高雄， 2010。

9. 詹承彥、鄭紹良、李勝偉、陳暉，“矽鍺基材上製備六方週期排列之鎳金屬矽化物奈米點陣列之研究”，中國材料科學學會年會，高雄，2010。

10. 林政勳、何志浩、蔡睿翰、李勝偉，“Self-cleaning and low-refractive Si/SiGe nanohole arrays for photovoltaic applications”，中國材料科學學會年會，高雄，2010。-「奈米結構材料與分析組」學生論文獎優等獎

11. 黃仕賢、王秋眉、李勝偉，“The effects of Al atoms on Ni silicidation on Si(001)”，中國材料科學學會年會，高雄，2010。-「電子材料組」學生論文獎優等獎

12. 林依頻、王秋眉、李勝偉，“鉑矽化物於矽碳磊晶基板上生成反應之研究”，中國材料科學學會年會，高雄，2010。

13. 陳佳姿、李侃融、李勝隆、曾重仁、洪逸明、林景崎、李勝偉、張仍奎，“鈰鋯比例對Ba0.6Sr0.4Ce0.8-x ZrxY0.2O3-δ質子傳導型固態氧化物燃料電池電解質之材料特性影響研究”，第六屆全國氫能與燃料電池學術研討會，宜蘭，2011。

14. 劉家珮、藍敏瑛、張仍奎、黃何雄、李勝偉，“纖維母細胞在光誘發親水性二氧化鈦奈米管上之生物相容性”，中國材料科學學會年會，雲林，2012。-「生醫材料組」學生論文獎優等獎

15. 江建儒、王思遠、李勝偉，“銀修飾硫化亞銅表面增強拉曼散射基板之製備”，中國材料科學學會年會，雲林，2012。

16. 黃伯彥、藍崇禎、李度、李勝偉、胡榮治、陳聯態、鄭紹良，“利用陽極氧化鋁模板製備準直排列銅金屬奈米線 管陣列及其性質研究”，中國材料科學學會年會，雲林，2012。

17. 張尚仁、李勝偉、李度、陳暉、胡榮治、陳聯泰、鄭紹良，“矽單晶奈米線之氧化動力學研究”，2012台灣化學工程學會59週年年會，台中，2012。

18. 張尚仁、李勝偉、李度、陳暉、胡榮治、陳聯泰、鄭紹良，“自組裝奈米球微影術結合電鍍製程製備有序鎳金屬奈米結構陣列”，2012台灣化學工程學會59週年年會，台中，2012。

19. 林子傑，牛翊凡，李勝偉，“Ge-enhanced TiO2 nanowire growth and its optoelectronic applications”，中國材料科學學會年會，中壢，2013。-「光電與光學材料組」學生論文獎優等獎

20. 江建儒，楊智傑，李勝偉，“Study on surface enhanced Raman scattering and photocatalytic properties of Ag-decorated Cu2S composite nanostructures”，中國材料科學學會年會，中壢，2013。

21. 藍敏瑛，劉家珮，游沅沅，黃何雄，李勝偉，“Both enhanced biocompatibility and antibacterial activity in Ag-decorated TiO2 nanotubes”，中國材料科學學會年會，中壢，2013。-「生醫材料組」學生論文獎優等獎

22. 李度、蔡宜蓁、李弘霖、林宗諺、陳政緯、鄭紹良、李勝偉、胡榮治、陳聯泰，“Co-crystallization with crown ethers and spherical crystallization of ammonium nitrate”，中國材料科學學會年會，中壢，2013。-「能源及環保材料組」學生論文獎優等獎

23. 張宏臺、王慶奇、徐榮照、洪銘聰、李佩雯、李勝偉，“High quality multifold Ge/Si/Ge composite quantum dots for thermoelectric materials”，中國材料科學學會年會，中壢，2013。-「電子(介電、積體、構裝)組」學生論文獎優等獎

24. 游沅沅、張仍奎、李勝偉，“可切換浸潤性之超臨界流體修飾二氧化鈦奈米管陣列”，台灣真空學會2013年會，台南，2013。

25. 李宗勳、蔣明勳、李勝偉，”Fabrication of Microdevices for Investigating One-Dimensional Thermoelectric Properties”，中國材料科學學會年會，高雄，2015。

26.  陳廷嘉、李侃融、林緯昀、李勝偉，“氧化鎳助燒結技術應用於薄膜電解質固態氧化物燃料電池”，中國材料科學學會年會，台中，2018。

27.  鄧格、李勝偉，“High-performance MoOx/Ag multilayered on-chip micro-supercapacitors”，中國材料科學學會年會，台中，2018。-「能源及環保材料組」學生論文獎優等獎

28.  賴意崴、李侃融、游易程、李勝偉，“以旋轉塗佈製備BCZY-LSCF複合陰極功能層應用於固態氧化物燃料電池”，中國材料科學學會年會，新北市，2020。-「能源及環保材料組」學生論文獎優等獎

29.  楊深宇、李勝偉、黃婉瑜、李侃融，“奈米纖維化Ag/LSCF 陰極應於用質子傳輸型固態氧化物燃料電池”，中國材料科學學會年會，新北市，2020。-「能源及環保材料組」學生論文獎優等獎

30.  羅時廷、林與絜、張仍奎、李勝偉，“PVDF-HFP based composite polymer electrolyte and Li electrode interface modification by succinonitrile-based ionic conductor in Li-ion batteries，”，中國材料科學學會年會，苗栗，2022。-「能源及永續材料領域」海報競賽優等獎

31.  楊佳桂、戴國瑜、李勝偉，“LSCF Nanofiber/Ag Particle Composite Cathode for Proton-conducting Solid Oxide Electrochemical Cells”，中國材料科學學會年會，苗栗，2022。

32.  李志賢、許育逢、石胥昌、王冠文、李勝偉，”Enhanced Hydrogen Evolution Reaction Performance and Stability of Palladium-Iron Hydride in Acidic Media”，功能性材料研討會暨國科會專題研究計畫成果發表會，台南，2024。-「無機組」海報競賽金牌獎。