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呂福興(Fu-Hsing Lu)老師實驗室
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呂福興(Fu-Hsing Lu)老師實驗室
  • homepage
    • cindex
      • web link
      • 導生
      • facility
      • 學生獲獎記錄
      • honor
      • publication
      • research
      • members
      • course
      • news
  • eindex
    • honor/societies
    • epublication
    • eresearch
    • emembers
    • ecourse
    • lab equipments
  • More
    • homepage
      • cindex
        • web link
        • 導生
        • facility
        • 學生獲獎記錄
        • honor
        • publication
        • research
        • members
        • course
        • news
    • eindex
      • honor/societies
      • epublication
      • eresearch
      • emembers
      • ecourse
      • lab equipments

Course

Group members

Research interest

Publication

Honors/Societies

Lab equipments

  1. G.-S. Wang, X.-X. Yang,  F.-H. Lu*, 2026, "Enhancement of Photoelectrochemical Responses via Annealing of Air-based Sputtered TiN Films in Controlled Atmospheres" J. Eur. Ceram. Soc., 46, 117817.  (SCI)

  2. X.-X. Yang,  F.-H. Lu*, 2025, "Development of Ti-N-O-based multilayer low-emissivity coatings through air-based sputtering technique" Appl. Surf. Sci. Adv., 30, 100902.  (SCI)

  3. Y.-T. Chien, X.-X. Yang,  F.-H. Lu*, 2025, "High photoelectrochemical response of SrTiO3/TiO2/TiN films synthesized via hydrothermal-galvanic couple method with reductive annealing" Commun. Mater., 6, 230.  (SCI)

  4. C.-Y. Lee, X.-X. Yang,  F.-H. Lu*, 2025, "Synthesis of preferred-oriented BaTiO3 thin films via hydrothermal-galvanic method on TiN-coated substrates for photoelectrochemical, dielectric, and piezoelectric evaluations" Ceram. Int., 51, 30225-30232.  (SCI)

  5. M.-Y. Lin, X.-X. Yang,  F.-H. Lu*, 2024, "Crystal and band structures of N-doped Ti3O5 coatings: Experiments and first-principles calculations" Thin Solid Films. 660, 140484.  (SCI)

  6. P.-H. Li, X.-X. Yang,  F.-H. Lu*, 2024, "Air-Based Sputtering Deposition of TiN(O)/a-TiNxOy Multilayer Films for Enhanced Mechanical Properties and Corrosion Resistance"  Surf. Coat. Technol., 481 130668.  (SCI)

  7. X.-X. Yang,  F.-H. Lu*, 2024, "Enhancement of photoelectrochemical performance for nitrogen-doped titanium dioxide-based thin films produced by a facile air-based sputtering deposition," Ceram. Int., 50, 7817-7826. (SCI)

  8. C.-T. Tsai, Y.-C. Chen, H.-M. Tsai, F.-H. Lu, 2023, "Photoresponse of solution-processed transparent heterojunction ultraviolet photodetectors composed of n-type ZTO and p-type NiO-based semiconductor thin films," Mater. Chem. Phys., 295, 127143. (SCI)

  9. X.-X. Yang,  F.-H. Lu*, 2023, "Air-based sputtering deposition of titanium oxynitride-based single, gradient, and multi-layer thin films for photoelectrochemical applications," Ceram. Int., 49, 15891-15899. (SCI)

  10. H.-P. Fan, X.-X. Yang,  F.-H. Lu*, 2022, "Air-based deposition of titanium‑aluminum oxynitride thin films by reactive magnetron sputtering,"  Surf. Coat. Technol., 436, 128287.  (SCI)

  11. Y.-Z. Zheng, P.-H. Chan,  F.-H. Lu*, 2022, "A facile synthesis of Al-doped BaTiO3 thin films by a hydrothermal-galvanic couple method on TiAlN film electrodes,"  Surf. Coat. Technol., 434, 128163.  (SCI)

  12.  H.-P. Teng, T.-J. Huang,  F.-H. Lu*, 2022, "Synthesis of crystalline BaZrO3 thin films over preferred-oriented ZrN by a hydrothermal-galvanic couple method for photoelectrochemical evaluations," Mater. Today Commun., 33, 104761.   (SCI)

  13. P.-H. Chan, H.-P. Teng, H.-S. Chan, F.-H. Lu*, 2021, "A facile control of epitaxial-like barium strontium titanate thin films with various Ba/Sr ratios synthesized by a hydrothermal-galvanic couple method,"  Ceram. Int., 47, 13715-13721.  (SCI)

  14. H. Li, S.-H. Yuan, T.-M. Huang, H.-J. Chen, F.-H. Lu, D.-S. Wuu*, 2020, "Impact of thermal-induced sapphire substrate erosion on material and photodetector characteristics of sputtered Ga2O3 films," J. Alloys Compd., 823, 153755.  (SCI)

  15. H.-P. Teng, F.-H. Lu*, 2020, "Production of Ba(Zr,Ti)O3 coatings on ternary (Ti,Zr)N thin film electrodes by plasma electrolyte oxidation," Surf. Coat. Technol., 385, 125440.  (SCI)

  16. G.-W. Lin, Y.-H. Huang, W.J. Tseng, F.-H. Lu*, 2019, "Production of N-doped anatase TiO2 on TiN-coated Ti substrates by plasma electrolytic oxidation for visible-light photocatalysts," Ceram. Int., 45, 22506-22512.  (SCI)

  17. P.-J. Tsai, K.-L. Chung, C.-J. Yang, H.-T. Lee, F.-H. Lu*, 2019, "Synthesis of Cu-Co bimetallic nanaoparticles using TiN-coated electrotrodes for glucose-sensing applciations," J. Alloys Compd., 785, 191-199.  (SCI)

  18. H.-P. Teng, C.-C. Lin, F.-H. Lu*, 2019, "A facile growth control of perovskite SrTiO3 thin films by tailoring surface morphologies of TiN seeding layers in the hydrothermal-galvanic couple synthesis," Thin Solid Films, 669, 220-226.  (SCI)

  19. G.-W. Lin, J.-S. Chen, W.J. Tseng, F.-H. Lu*, 2019, "Formation of anatase TiO2 coatings by plasma electrolytic oxidation for photocatalytic applications," Surf. Coat. Technol. 357, 28-35.  (SCI)

  20. Y.-C. Liou, F.-H Lu*, 2018, “Air-based sputtering deposition of TiNxOy films for solar selective absorber coatings applications,” Thin Solid Films. 660, 733-740.  (SCI)

  21. H.-P. Teng, H.-Y. Lin, Y.-H. Huang, F.-H Lu*, 2018, “Formation of strontium -substituted hydroxyapatite coatings on bulk Ti and TiN-coated substrates by plasma electrolytic oxidation,” Surf. Coat. Technol. 350, 1112-1119.  (SCI)

  22. K.-L. Chuang, M.-T. Tsai, F.-H Lu*, 2018, “Morphology control of conductive TiN films produced by air-based magnetron sputtering,” Surf. Coat. Technol. 350, 1091-1097.  (SCI)

  23. Y.-H. Mao, C.-Y. Chen, J.-X. Fu, T.-Y. Lai, F.-H Lu*, Y.-C. Tsai*, 2018, “Electrodeposition of nickel-copper on titanium nitride for methanol electrooxidation,” Surf. Coat. Technol. 350, 949-953.  (SCI)

  24. C.-Y. Yu, P.-J. Tsai, F.-H. Lu*, 2017, “Electrochemical synthesis of Ni nanoparticles over tailored TiN thin film electrodes for glucose sensing,” Ceram. Int., 43, S807-813.  (SCI)

  25. H.-P. Teng, H.-W. Hsu, and F.-H. Lu*, 2017, “Formation of BaxSr1-xTiO3 films on TiN-coated substrates by plasma electrolytic oxidation,” Ceram. Int., 43, S584-590.  (SCI)

  26. P.-H. Chan, H.-S. Chan, and F.-H. Lu*, 2017, “A facile method to control grain sizes of barium strontium titanate films on TiN/Si in the hydrothermal–galvanic couple synthesis,” Ceram. Int., 43, S578-583.  (SCI)

  27. H.-P. Teng, H.-H. Wu, and, F.-H. Lu*, 2016, “Synthesis and formation mechanisms of BaZrO3 thin films prepared on ZrN-coated substrates by a low temperature hydrothermal–galvanic couple method,” Thin Solid Films, 618, 224-230.  (SCI)

  28. F.-H. Lu*, S.-Y. Chang, Y.-Y. Chang, P.-Y. Chen, H.-H. Huang, Y.-L. Kuo, J.-W. Lee, F.-B. Wu, 2016, “Preface: The Biennial TACT International Thin Films Conference (TACT 2015),” Surf. Coat. Technol., 303, 1-2.  (SCI)

  29. H.-P. Teng, C.-J. Yang, J.-F. Lin, Y.-H. Huang, and F.-H. Lu*, 2016, “A simple method to functionalize the surface of plasma electrolytic oxidation produced TiO2 coatings for growing hydroxyapatite,” Electrochim. Acta, 193, 216-224.  (SCI)

  30. C.-H. Hsiao, H.-P. Teng, and, F.-H. Lu*, 2015, “Formation of zirconia coatings on ZrN-coated substrates by plasma electrolytic oxidation,” Surf. Coat. Technol., 269, 295-301.  (SCI)

  31. W.-Y. Tsai, C.-J. Yang, J.-L. Zeng, F.-H. Lu*, 2014, "Synthesis and characterization of barium titanate films on Ti-coated Si substrates by plasma electrolytic oxidation," Surf. Coat. Technol., 259, 297-301. (SCI)

  32. Y.-H. Tsai, Y.-C. Chieh, F.-H. Lu*, 2014, "Influence of Sr+2 concentrations on growth of SrTiO3 thin films synthesized by hydrothermal–galvanic couple method," Thin Solid Films, 570, 479-485. (SCI)

  33. H.-F. Ting, C.-M. Chen, F.-H. Lu, S.-Y. Suen*, 2014, "Adsorption and photodegradation of methylene blue using a bulk Ti material with porous titania layer prepared by chemical oxidation," J. Taiwan Inst. Chem. Eng., 45(2), 617-624. (SCI)

  34. H.-M. Wu, K.-J. Lin, Y.-H. Yu, C.-Y. Ho, M.-H. Wei, F.-H. Lu, W.-J. Tseng, 2014, "Effect of pH on film structure and electrical property of PMMA–Au composite particles prepared by redox transmetalation," Appl. Surf. Sci., 289, 524–528. (SCI)

  35. C.-J. Yang and F.-H. Lu*, 2013, “Shape and size control of Cu nanoparticles by tailoring the surface morphologies of TiN-coated electrodes for biosensing applications” Langmuir, 29, 16025-16033. (SCI)

  36. C.-J. Yang, L.-S. Chao, and F.-H. Lu*, 2013, “Synthesis and electrochemical behaviors of nano-network NaHTi3O7 thin films on Ti/Si prepared by a hydrothermal-galvanic couple method,” Surf. Coat. Technol., 231, 521-525. (SCI)

  37. J.-L. Tseng, H.-P. Teng, and F.-H. Lu*, 2013, “Electrochemical deposition of barium titanate thin films on TiN/Si substrates,” Surf. Coat. Technol., 231, 297-300. (SCI)

  38. C.-J. Yang, D.-Y. Tsai, P.-H. Chan, C.-T. Wu, and F.-H. Lu*, 2013, “Hydrothermal- galvanic couple synthesis of directionally oriented BaTiO3 thin films on TiN-coated substrate,” Thin Sold Films, 542, 108-113. (SCI)

  39. K.-J. Lin, H.-M. Wu, Y.-H. Yu, C.-Y. Ho, F.-H. Lu, and W. J. Tseng, 2013, “Preparation of PMMA-Ni core-shell composite particles by electroless plating on polyelectrolyte- modified PMMA beads” Appl. Surf. Sci., 282, 741-745. (SCI)

  40. Li-Ren Yao and F.-H. Lu*, 2013, “Low vacuum deposition of aluminum nitride thin films by sputtering,” Int. J. Appl. Ceram. Technol., 10(1), 51-59. (SCI)

  41. C.-Y. Hong, H.-P. Teng, F.-H. Lu*, 2012, “Effects of KMnO4-added electrolytes on alumina coatings prepared by plasma electrolytic oxidation,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 26(3), pp. 141-146.  (EI)

  42. M.-H. Chan and F.-H. Lu*, 2012, “Air-based deposition and processing windows of sputtered TiN, TiNxOy, and N-doped TiOx thin films,” Surf. Coat. Technol., 210, 135-141.  (SCI)

  43. J.-L. Zeng, H.-P. Teng, C.-J. Yang, and F.-H. Lu*, 2012, “Synthesis and corrosion resistance of barium titanate films on Ti underlayers by plasma electrolytic oxidation,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 26(2), pp. 99-106.(EI)

  44. F.-H. Lu*, 2012, “Deposition and characteristics of conductive nitride thin films prepared by physical deposition technique using air as a reactive gas,” Eng. Sci. Technol. Bull., NSC (工程科技通訊, in Chinese), hard copy: 127, pp. 23-26.

  45. M.-H. Chan and F.-H. Lu*, 2011, “Air-based deposition of conductive nitride thin films by sputtering,” J. Electrochem. Soc., 158(6), P75-P80.  (SCI)

  46. B.-J. Wei, Y.-L. Cheng, F.-H. Lu, T.-J. Chiu, and H.-C. Shih, 2011, “Comparative study of low dielectric constant material deposited using different precursors,” J. Vac. Sci. Technol. A., 29(4), 041507-1-7.  (SCI)

  47. Y.-C. Chieh and F.-H. Lu*, 2011, "Monte Carlo Simulation of Atom Diffusion via Vacancies in Nanofilms with a Model Simple Cubic Lattice System," J. Nanosci. Nanotechnol., 11(3), 2376-2383.  (SCI)

  48. C.-H. Hsu, H.-P. Teng, and F.-H. Lu*, 2011, “Effects of addition of Al(NO3)3 to electrolytes on alumina coatings by plasma electrolytic oxidation,” Surf. Coat. Technol. 205, 3677-3682.   (SCI)

  49. F.-H. Lu*, 2010, “Synthesis of nano-structured anodic oxide films on conductive nitride seeding layers,” Eng. Sci. Technol. Bull., NSC (工程科技通訊, in Chinese), hard copy: 109, p. 63, pp. 159-161 (full text); E-paper: 112.

  50. M.-H. Chan, P.-L. Wu, and F.-H. Lu*, 2010, “Prepartion of ZrNxOy fillms by magnetron sputtering using air as a reactive gas,” Thin Solid Films, 518(24), 7300-7303.  (SCI)

  51. P.-H. Chan, K.-H. Lee, and F.-H. Lu*, 2010, “Synthesis of perovskite oxide films on TiN/Si by a low temperature hydrothermal-electrochemical method,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 24(2), pp. 121-128.

  52. P.-H. Chan and F.-H. Lu*, 2010, “Low-temperature hydrothermal synthesis and the growth kinetics of BaTiO3 films on TiN/Si, Ti/Si, and bulk-Ti substrates,” J. Electrochem. Soc., 57(6), G130-G135.  (SCI)

  53. M.-H. Chan and F.-H. Lu*, 2009, “Characterization of N-doped TiO2 films prepared by reactive sputtering using air/Ar mixtures,” Thin Solid Films, 518(5), 1369-1372.  (SCI)

  54. F.-H. Lu*, B.-F. Jiang, J.-L. Lo, and M.-H. Chan, 2009, “Influences of oxygen impurity contained in nitrogen on the reaction of titanium with nitrogen,” J. Mater. Res., 24(7), 2400-2408.  (SCI)

  55. C.-D. Lu, L.-S. Chang, Y.-F. Lu, and F.-H. Lu, 2009, “The growth of interfacial compounds between titanium dioxide and bismuth oxide,” Ceram. Int., 35(7), 2699-2704.  (SCI)

  56. M.-H. Chan and F.-H. Lu*, 2009, “X-ray photoelectron spectroscopy analyses of titanium oxynitride films prepared by magnetron sputtering using air/Ar mixtures,” Thin Solid Films, 517(17), 5006-5009.  (SCI)

  57. P.-H. Chan and F.-H. Lu*, 2009, “Low-temperature hydrothermal–galvanic couple synthesis of BaTiO3 thin films on Ti-coated silicon substrate,” Thin Solid Films, 517(17), 4782-4785.  (SCI)

  58. Y.-C. Chieh, C.-C. Chang, Y.-L. Lai, and F.-H. Lu*, 2009, "Kinetic studies on electrochemical stripping of CrN films," Surf. Coat. Technol., 203, 1709-1714. (SCI)

  59. M.-H. Chan and F.-H. Lu*, 2008, “Preparation of titanium oxynitride thin films by reactive sputtering using air/Ar mixtures,” Surf. Coat. Technol., 203, 614-618. (SCI)

  60. H.-P. Teng, Y.-C. Chieh, and F.-H. Lu*, 2008, “Synthesis of BaZrO3 films on ZrN-coated Si by a novel low temperature hydrothermal-galvanic couple method,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 22(2), 73-82.

  61. B.J. Wei, Y.L. Cheng, Y.L. Wang, F.H. Lu, and H.C. Shih, 2008, “Dielectric properties of high-density-plasma fluorinated-silicate glass by doping nitrogen,” J. Vac. Sci. Technol. A., 26(3), 481-484. (SCI)

  62. F.-H. Lu*, H.-D. Tsai, and Y.-C. Chieh, 2008, “Plasma oxidation of Al thin films on Si substrates,” Thin Solid Films, 516/8, 1876-1881.  (SCI)

  63. Y.-C. Chieh and F.-H. Lu*, 2008, "Monte Carlo simulation of atoms diffusion via vacancies in fcc-structured nanofilms," J. Phys. Chem. Solids, 69/2-3, 315-319.  (SCI)

  64. C.-Y. Lin and F.-H. Lu*, 2008, “Oxidation behavior of AlN films at high temperature under controlled atmosphere,” J. Eur. Ceram. Soc., 28/3, 691-698.  (SCI)

  65. H.-P. Teng, Y.-C. Chieh, and F.-H. Lu*, 2008, “Synthesis of BaZrO3 films on ZrN-coated Si by a novel low temperature hydrothermal-galvanic couple method,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 22(2), 73-82.

  66. P.-H. Chan, Y.-C. Chieh, and F.-H. Lu*, 2007, “Preparation of BaTiO3 on Ti/Si and bulk-Ti by a novel low temperature hydrothermal-galvanic couple method,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 21(4), 291-298.

  67. H.-P. Teng, Y.-C. Chieh, and F.-H. Lu*, 2007, “Preparation of BaZrO3 films by physical vapor deposition and a novel hydrothermal duplex technique,” Thin Solid Films, 516(2-4), 364-368. (SCI)

  68. H.-Y. Chen, J.-H. Chen, and F.-H. Lu*, 2007, “Evaluation of Poisson’s ratio and Young’s modulus of nitride films by combining X-ray diffraction and laser curvature techniques,” Thin Solid Films, 516(2-4), 345-348. (SCI)

  69. M.-H. Chan, W.-Y. Ho, D.-Y. Wang, and F.-H. Lu*, 2007, “Characterization of Cr-doped TiO2 thin films prepared by cathodic arc plasma deposition,” Surf. Coat. Technol., 202(4-7), 962-966. (SCI)

  70. C.-J. Wu, W.-C. Hsu, C.-T. Wang, K.-C. Lin, C.-H. Huang, and F.-H. Lu*, 2007, “Synthesis and applications of nanoporous anodic aluminum oxide,” Bull. Chinese Ceram. Soc. (陶業季刊, in Chinese), 26(4), 32-36.

  71. Y.-C. Chieh, P.-H. Chan, H.-P. Teng, C.-C. Yu, and F.-H. Lu*, 2007, “Prepation of functional oxide films by a novel hydrothermal-galvanic couple method,” Bull. Chinese Ceram. Soc. (陶業季刊, in Chinese), 26(4), 8-15.

  72. Y.-C. Chieh, C.-C. Yu, and F.-H. Lu*, 2007, "Epitaxial growth of BaTiO3 films on TiN/Si substrates by a hydrothermal-galvanic couple method," Appl. Phys. Lett., 90, 032904-032906. (SCI)

  73. H.-Y. Chen, F.-H. Lu, 2006, "Oxidation behavior of chromium nitride films," Thin Solid Films, v 515, n 4, 2179-2184. (SCI)

  74. Y.–C. Chieh, W.-Z. Lo, and F.-H. Lu*, 2006, "Microstructure evolution of ZrN films annealed in vacuum," Surf. Coat. Technol., v 200, n 10,  3336-3340. (SCI)

  75. H.-H. Huang, S.-J. Pan, and F.-H. Lu, 2005, “Surface electrochemical impedance in situ monitoring of cell-cultured titanium with a nano-network surface layer,” Scripta Mater. 53, 1037-1042. (SCI)

  76. Y.-S. Ho, F.-S. Huang, and F.-H. Lu, 2005, “Influences of oxygen impurity contained in nitrogen gas on the reactions of chromium with nitrogen,” J. Mater. Res., 20(10), 2745-2753. (SCI)

  77. H.-Y. Chen and F.-H. Lu, 2005, “Oxidation behavior of titanium nitride films,” J. Vac. Sci. Technol. A., 23(4), 1006-1009. (SCI)

  78. C.-T. Wu and F.-H. Lu, 2005, “Synthesis of barium titanate films by plasma electrolytic oxidation at room electrolyte temperature,”  Surf. Coat. Technol., 199/2-3, 225-230. (SCI)

  79. W.-Z. Lo, P.-S. Chan, and F.-H. Lu*, 2004, “Degradation of ZrN films Annealed in Forming gas,” J. Chinese Corrosion Engineering (防蝕工程, in Chinese), 18(4), 415-422.

  80. F.-H. Lu* and W.-Z. Lo, 2004, “Degradation of ZrN films at High Temperature under Controlled Atmosphere,” J. Vac. Sci. Technol. A., 22(5), 2071-2076. (SCI)

  81. H.-H. Huang, S.-J. Pan, Y.-L. Lai, T.-H. Lee, C.-C. Chen, and F.-H. Lu, 2004, “Osteoblast-like Cell Initial Adhesion onto a Network-Structured Titanium Oxide Layer,” Scripta Mater., 51, 1017-1021. (SCI)

  82. H.-Y. Chen, C.-J. Tsai, and F.-H. Lu*, 2004, “The Young’s Modulus of Chromium Nitride Films,” Surf. Coat. Technol., 184, 69-73. (SCI)

  83. S. Han, H.-Y. Chen, K.-L. Chang, K.-W. Weng, D.-Y. Wang, F.-H. Lu, and H.C. Shih, 2004, “Effects of MEVVA-Implanted Chromium on the Structure and Properties of CrN Film,” Thin Solid Films. 447-448, 425-429. (SCI)

  84. S. Han, H.-Y. Chen, Z.-C. Chang, J.-H. Lin, C.-J. Yang, F.-H. Lu, F.-S. Shieu, and H.C. Shih, 2003, “Effect of Metal Vapor Vacuum Arc Cr-Implanted Interlayers on the Microstructure of CrN Film on Silicon,” Thin Solid Films. 436, 238-243. (SCI)

  85. H.-Y. Chen and F.-H. Lu*, 2003, “Stress Relaxation-Induced Phase Transformation in Chromium Nitride Films,” J. Mater. Lett., 22, 817-819.   (SCI)

  86. H.-Y. Chen and F.-H. Lu*, 2003, “Phase Transformation in Chromium Nitride Films,” J. Vac. Sci. Technol. A., 21, 695-700.   (SCI)

  87. F.-H. Lu*, H.-Y. Chen, and, C.-H. Hung, 2003, “Degradation of CrN Films at High Temperature under Controlled Atmosphere,” J. Vac. Sci. Technol. A., 21, 671-675.   (SCI)

  88. C.-T. Wu and F.-H. Lu*, 2003, “Corrosion Resistance of BaTiO3 Films Prepared by Plasma Electrolytic Oxidation,” Surf. Coat. Technol., 166, 31-36.   (SCI)

  89. H.-Y. Chen and F.-H. Lu*, 2002, “Phase Transformation in CrN Films,” J. Mater. Sci. Engr. (材料科學與工程, in Chinese), 34, 246-250.

  90. F.-H. Lu* and J.-L. Lo, 2002, "The Influences of Oxygen Impurity Contained in Nitrogen Gas on the Annealing of Titanium Nitride," J. Eur. Ceram. Soc., 22, 1367-1374.  (SCI)

  91. F.-H. Lu*, C.-T. Wu and C.-Y. Hung 2002, "Barium Titanate Films Synthesized by an Anodic Oxidation-Based Electrochemical Method," Surf. Coat. Technol., 153, 276-283.  (SCI)

  92. C.-T. Wu and F.-H. Lu*. 2001, "Electrochemical Deposition of Barium Titanate Films Using a Wide Electrolytic Voltage Range," Thin Solid Films, 398-399, 621-625.  (SCI)

  93. F.-H. Lu* and H.-Y. Chen, 2001, "Phase Changes of CrN Films Annealed at High Temperature under Controlled Atmosphere," Thin Solid Films, 398-399, 368-373.  (SCI)  

  94. S. Han, J.H. Lin, D.Y. Wang, F.-H. Lu. and H.C. Shih, 2001, "The Corrosion Resistance of the Chromium Nitride on Low Alloy Steels by Cathodic Arc Deposition," J. Vac. Sci. Technol. A, 19, 1442-1446.  (SCI)  

  95. F.-H. Lu*, C.-T. Wu, and C.-Y. Hong, 2001, "Electrochemical Deposition of Barium Titanate Films by Anodic Oxidation," Journal of Engineering, NCHU, 12, 119-125.

  96. F.-H. Lu*, F.-X. Fang, and Y.-S. Chen, 2001, "Eutectic Reaction between Copper Oxide and Titanium Dioxide," J. Eur. Ceram. Soc., 21, 1093-1099.  (SCI)

  97. Z.C. Chang, F.-H. Lu, and F.S. Shieu, 2001, "Characterization of the Microstructure and Phase Formation in the Au-In System Using Transmission Electron Microscopy," Mater. Chem. Phys., 70, 137-143.  (SCI)

  98. S. Han, J.H. Lin, X.J. Guo, S.H. Tsai.Y.O. Su, J.H. Huang, F.-H. Lu, and H.C. Shih, 2000 "The Effect of Cr Interlayer on the Microstructure of CrN Coatings on Steel," Thin Solid Films, 377-378, 578-584.  (SCI)

  99. S. Han, J.H. Lin, S.H. Tsai, S.C. Chung, D.Y. Wang, F.-H. Lu, and H.C. Shih, 2000 "Corrosion and Tribological Studies of Chromium Nitride Coated on Steel Through an Interlayer of Chromium," Surf. Coat. Technol., 133-134, 460-465. (SCI) 

  100. F.-H. Lu*, S.-P. Feng, H.-Y. Chen, and J.-K. Li, 2000, "The Degradation of TiN Films on Cu Substrates at High Temperature under Controlled Atmosphere," Thin Solid Films 375, 123-127.  (SCI)

  101. F.-H. Lu* and H.-Y. Chen, 2000, "Characterization of Titanium Nitride Films Deposited by Cathodic Arc Plasma Technique on Copper Substrates," Surf. Coat. Technol., 130, 290-296.  (SCI)

  102. F.-H. Lu* and H.-Y. Chen, 1999, "XPS Analyses of TiN Films on Cu Substrates after Annealing in the Controlled Atmosphere," Thin Solid Films, 355-356, 374-379.  (SCI)

  103. F.-H. Lu*, 1999, "Monte Carlo Simulation on the Cation Diffusion via Vacancies in Simple Spinels," Comput. Mater. Sci., 14, 48-55.  (SCI)

  104. F.-H. Lu*, 1998, "Monte Carlo Simulation on the Cation Diffusion in Simple Spinels," Journal of Engineering, NCHU, 9(1), 1-8. 

  105. F.-H. Lu*, 1996, "Loss Minimization through Recombination Center Identification in Solar Cells," Phys. Stat. Sol. (b), 194, 91-100.  (SCI) 

  106. F.-H. Lu and R. Dieckmann, 1995, "Point Defects in Oxide Spinel Solid Solutions of the Type (Co,Fe,Mn)3-δ04  at 1200oC," J. Phys. Chem. Solids, 56(5), 725-733.  (SCI)

  107. F.-H. Lu, M.L. Newhouse, and R. Dieckmann, 1995, "Oxygen Activity Dependent Dissolution of Nickle from Nickel Oxide into Platinum," J. Phys. Chem. Solids, 56(5), 715-724.  (SCI)  

  108. F.-H. Lu, M.L. Newhouse, R. Dieckmann, and J. Xue, 1995, "Platinum - A Non-Inert Material Reacting with Oxides," Solid State Ionics, 75, 187-192.  (SCI) 

  109. F.-H. Lu, P. Franke, C.S. Nichols, and R. Dieckmann, 1994, "Monte Carlo Simulation of Cation Diffusion via Vacancies in Quasibinary Spinel Solid Solutions Involving Multiple Types of Cation-Vacancy Exchanges," J. Appl. Phys., 76(2), 848-857.  (SCI)

  110. F.-H. Lu, P. Franke, C.S. Nichols, and R. Dieckmann, 1994, "Monte Carlo Simulation of Cation Transport via Vacancies in Spinel Solid Solutions: One Type of Cation Exchange Prevails," J. Appl. Phys., 75(2), 819-826.  (SCI)

  111. F.-H. Lu and R. Dieckmann, 1993, "Point Defects and Cation Tracer Diffusion in (CoxMn1-x)3-δ04 Spinels," Solid State lonics, 67, 145-155.  (SCI)

  112. F.-H. Lu, S. Tinkler, and R. Dieckmann, 1993, "Point Defects and Cation Tracer Diffusion in (CoxFe1-x)3-δ04 Spinels," Solid State Ionics, 62, 39-52.  (SCI) 

  113. F.-H. Lu and R. Dieckmann, 1993, "Point Defects and Cation Tracer Diffusion in (Co,Fe,Mn)3-δ04 Spinels: II. Mixed Spinels (CoxFezMn2z)3-δ04," Solid State Ionics, 59, 71-82.  (SCI) 

  114. F.-H. Lu and R. Dieckmann, 1992, "Point Defects and Cation Tracer Diffusion in (Co,Fe,Mn)3-δ04 Spinels: I. Mixed Spinels (CoxFe2yMny)3-δ04," Solid State Ionics, 53-56, 290-302.  (SCI)

  115. F.-H. Lu and R. Dieckmann, 1991, "Non-stoichiometry and Cation Tracer Diffusion in Cobalt-Iron-Manganese Oxide Spinels," Ceramic Transactions, 24, 185-192.  


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National Chung Hsing University, Taichung, Taiwan

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​更新日期: 2025/11/13

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