李建良 (Chien-LiangLee)
 

 Office: 化工館 507 室; Lab: 化工館 207
TEL: Office 07-3814526-5131; Lab 07-3814526-5144~7-207
E-mail: cl_lee@kuas.edu.tw
現職:國立高雄應用科技大學 化學工程與材料工程系 教授 (2013.08~)

學歷:

國立清華大學化學工程研究所博士 (2002.06)

國立中正大學化學研究所碩士 (1998. 06)

中原大學化學系 學士 (1996. 06)

經歷:

工業技術研究院工業材料研究所研究員 (2002.10~2007.02)

國立高雄應用科技大學 化學工程與材料工程系 助理教授 (2007.02~2010.07)

國立高雄應用科技大學 化學工程與材料工程系 副教授 (2010.08~2013.07)

學術服務:

台灣化學工程學會正會員

台灣電化學學會永久會員

Electrochemical Society, Active Member (2000~)

International Society of Electrochemistry, Member (2008~)

Journal of the Taiwan Institute of Chemical Engineers, Associate Editor (2015.07~)

Journal of the Taiwan Institute of Chemical Engineers, Editorial Board   (2012.07~2015.06)

研究興趣:

¨     電化學金屬材料表面處理技術

¨     金屬奈米粒子結構設計與合成製備

¨     電化學觸媒 與催化反應

實驗室研生榮譽

   1. 2011年碩士生許秋美榮獲南部中國化學會最佳論文獎。
2. 2011 年碩士生楊昊霖榮獲58屆台灣化工年會壁報論文優等獎。
3. 2014 年碩士生趙奕儒榮獲南部中國化學會最佳論文獎。
4. 2014 年碩士生劉哲廷榮獲61屆台灣化工年會壁報論文佳作獎。
5. 2015 年碩士生洪榜德榮獲62屆台灣化工年會最佳壁報論文獎。
6. 2015 年碩士生趙奕儒榮獲台灣化學工程學會 化工傑作獎-金屬奈米材料的形狀控制合成與特
性 (化工; 61(3), 2014, 3-27) 。
7. 2016 碩士生許仕揚榮獲63屆台灣化工年會壁報論文佳作獎。
8. 2016 碩士生吳政緯榮獲63屆台灣化工年會壁報論文佳作獎。

Publications :(*通訊作者)                

  1. C-C Yang, Z-T Liu, Y-P Lyu, C-L Lee* "Shell-thickness-controlled synthesis of core-shell Pd@Pt nanocubes and tuning of their oxygen reduction activities"J. Electrochem. Soc. accepted (2017).

  2. Z-T Liu, H-R Chen, C-L Lee* "Promising activity of concave Pd@Pd Pt nanocubes for the oxygen reduction reaction"  Electrochim. Acta, accepted (2016).

  3. J-S Ye, B-D Hong, Y-S Wu, H-R Chen, C-L Lee* "Heterostructured palladium-platinum core-shell nanocubes for use in a nonenzymatic amperometric glucose sensor" Microchim.  Acta 183, 3311-3320 (2016).

  4. Y-J Chao, Z-W Wu, S-Y Hsu,  C-L Lee* "Shape-dependent properties of silver nanocrystals as electrocatalysts toward glucose oxidation reaction" Chem. Select  1, 3994-5001 (2016). 

  5. J-S Ye, S-Y Hsu, C-L Lee* "Sequential and transient electrocatalysis of glucose oxidation reaction by octahedral, rhombic dodcahedral, and cubic palladium nanocrystals" Electrochim. Acta 211, 1024-1032 (2016).

  6. B-D Hong, K-L Huang, H-R Chen, C-L Lee* "Effect of defective graphene flake for catalysts of supported Pd nanocubes toward glucose oxidation reaction in alkaline medium" J. Electrochem. Soc. 163, H1-H7 (2016). 

  7. Y-J Chao, Y-P Lyu, C-W Wu, C-L Lee* "Seed-mediated growth of Ag nanocubes and their size-dependent activities toward oxygen reduction reaction"  Int. J. Hydrogen Energy, 41, 3896-3903 (2016).

  8. J-S Ye, Z-T Liu, C-C Lai, C-T Lo*, C-L Lee* "Diameter effect of electrospun carbon fiber support for the catalysis of Pt nanoparticles in glucose oxidation" Chem. Eng. J. 283, 304-312 (2016).

  9. Y-S Hsieh, B-D Hong, C-L Lee* "Non-enzymatic sensing of dopamine using a glassy carbon electrode modified with a nanocomposite consisting of palladium nanocubes supported on reduced graphene oxide in a nafion matrix" Microchim. Acta 183, 905-910 (2016).

  10. Z-T Liu, K-L Huang, Y-S Wu, Y-P Lyu, C-L Lee* "A comparison of physically and chemically defective graphene nanosheets as catalyst supports for cubic Pd nanoparticles in an alkaline oxygen reduction reaction" Electrochim. Acta 185, 552-561  (2015).

  11. Y-J Chao, C-R Liu, L-S Pan, C-L Lee* "Activity of Small Silver Nanocubes as Activators for Electroless Copper Depostion" Electrochim. Acta, 183, 20-26  (2015).

  12. C-C Yang, H-R Chen, C-L Lee* "Sub 10-nm Pd nanocubes and their coating with multi-armed Pt shells: facile synthesis and catalysis of alkaline oxygen reduction" J. Electrochem. Soc. 162, H512-H517 (2015).

  13. C-R Liu, L-S Pan, C-H Li, H-R Chen, C-L Lee* " Ag/Sn nanoparticles reduced by tin(II) pyrophosphate, tin(II) oxalate, and tin(II) sulfate for catalyzing electroless copper deposition" J. Electrochem. Soc. 162, D1-D8 (2015).

  14. J-C Shyu*, P-Y Wang, C-L Lee, S-C Chang, T-S Sheu, C-H Kuo, K-L Hung, Z-Y Yang "Fabrication and test of air-breathing microfluidic fuel cell" Energies 8, 2082-2096 (2015).

  15. C-W Chen, Z-T Liu, Y-Z Zhang, J-S Ye, C-L Lee* " Sonoelectrochemical intercalation and exfoliation for the preparation of defective graphene sheets and their application as nonenzymatic H2O2 sensors and oxygen reduction catalysts" RSC. Adv. 5, 21988-21998 (2015)

  16. K-L Huang, Z-T Liu, C-L Lee*, "Truncated palladium nanocubes: Synthesis and the effect of OH- concentration on their catalysis of the alkaline oxygen reduction reaction" Electrochim. Acta, 157, 78-87  (2015).

  17. J-S Ye, C-W Chen,  C-L Lee*,  "Pd nanocube as non-enzymatic glucose sensor" Sens. Actuators B-Chem. 208, 569-574 (2015).

  18. C-C Yang, H-R Chen, C-L Lee* "Galvanic deposition and electrocatalytic oxygen reduction of standing Pt/AgCl-coated Ag nanosheets" J. Solid State Electrochem. 19, 663-670 (2015).

  19. 劉家汝、李建良* "化學鍍活化液之發展" 化工 61卷第四期3-15 (2014).

  20. 趙奕儒、李建良* "金屬奈米材料的形狀控制合成及特性" 化工 61卷第三期3-27 (2014). 台灣化學工程學會 化工傑作獎

  21. C-R Liu, N-K Chou, C-H Li, H-R Chen, C-L Lee*"1,10-Phenanthroline as an accelerator for Ag nanoparticle-catalysed electroless copper deposition"Appl. Surf. Sci. 317, 181-187 (2014).

  22. C-L Lee*, C-C Yang, C-R Liu, Z-T Liu, J-Y Ye "Pt-Coated nanocubes as catalysts for alkaline oxygen reduction reaction" J. Power Sources, 268, 712-717 (2014).

  23. Y-L Tasi, K-L Huang, C-C Yang, J-S Ye, L-S Pan, C-L Lee*Preparation and cyclic voltammetric dissolution of core-shell-shell Ag-Pt-Ag nanocubes and their comparison in oxygen reduction reaction in alkaline media" Int. J. Hydrogen Energy, 39, 5528-5536 (2014).

  24. C-L Lee*, K-L Huang, Y-L Tasi, Yi-Ju Chao A comparison of alloyed and dealloyed silver/palladium/platinum nanoframes as electrocatalysts in oxygen reduction reaction Electrochem. Commun. 34, 282-285 (2013).

  25. C-L Lee*, C-H Chen, C-W Chen Graphene nanosheets as ink particles for inkjet printing on flexible boardChem. Eng. J., 230,296-302 (2013).

  26. C-L Lee*, H-L Yang, C-W Chen, Y-L Tsai “Silver nanoplates: Tetradecyltrimethylammonium ions as additives in seed-growth synthesis and their potential application as catalysts for glucose oxidation reaction Electrochim. Acta, 106,411-417 (2013).

  27. C-L Lee*, Y-L Tsai, C-W ChenSpecific and mass activity of silver nanocube-based catalysts for electroless copper deposition Electrochim. Acta, 104, 185-190  (2013).

  28. C-L Lee*, C-H Huang, K-L Huang, Y-L, Tsai, C-C Yang A comparison of three carbon nanoforms as catalyst supports for the oxygen reduction reactionCarbon, 60, 392-400 (2013).

  29. C-W Chen, Y-S Hsieh, C-C Syu, H-R Chen, C-L Lee* "Displacement Preparation-Induced Effects on Structure of Ag-Pd Nanobrushes for Catalyzing Oxygen ReductionJ. Alloy. Compd. 580, S359-S363 (2013).

  30. C-L Lee*, Y-L Tsai, C-H Huang, K-L Huang “Performance of Silver Nanocubes Based on Electrochemical Surface Area for Catalyzing Oxygen Reduction ReactionElectrochem. Commun. 29, 37-40  (2013).

  31. C-L Lee*  “5th Virtual issue: Solid-State CatalystsJ. Taiwan Inst. Chem. Eng.44,145 (2013).

  32. C-L Lee*, C-M Syu, C-H Huang, H-P Chiou, Y-J Chao, C-C Yang "Cornered silver and silver-platinum nanodisks: Preparation and promising activity for alkaline oxygen reduction catalysisAppl. Catal. B: Environ. 132-133, 229-236 (2013).

  33. C-H Chen, H-L Yang, H-R Chen, C-L Lee* "Activity on Electrochemical Surface Area: Silver Nanoplates as New Catalysts for Electroless Copper DepositionJ. Electrochem. Soc. 159, D1-D5 (2012).

  34. H-L Yang, Y-L Tsai, C-L Lee*  "Effect of Single Crystal Ag Electrode Structure on Electroless Copper Deposition ActivationECS Electrochem. Lett. 1, D1-D3 (2012).

  35. C-L Lee,* H-P Chiou  “Methanol-tolerant Pd nanocubes for catalyzing oxygen reduction reaction in H2SO4 electrolyte Appl. Catal. B: Environ., 117-118, 204-211(2012).

  36. C-L Lee,* C-C Syu, H-P Chiou, C-R Liu, C-H Huang   “Effect of Electrochemical Surface Area on Electroless Copper Deposition: Pd nanocubes as new activator Electrochim. Acta, 59, 587-591 (2012).

  37. C-L Lee,* H-P Chiou, C-R Liu “Palladium nanocubes enclosed by (100) planes as electrocatalyst for alkaline oxygen electroreduction Int. J. Hydrogen Energy, 37, 3993-3997 (2012).

  38. C-L Lee,*  C-C Syu “Electrochemical Growth and Oxygen Reduction Property of Ag Nanosheet Arrays on a Ti/TiO2 ElectrodeInt. J. Hydrogen Energy, 36, 15068-15075 (2011).

  39. C-L Lee,* Y-J Chao, C-H Chen, H-P Chiou, C-C Syu “Graphite-Nanofiber-Supported Porous Pt-Ag Nanosponges: Synthesis and Oxygen Reduction Electrocatalysis Int. J. Hydrogen Energy, 36, 15045-15052 (2011).

  40. C-L Lee*,  C-C Syu “Ag Nanoparticle as a new Activator for Catalyzing Electroless Copper Bath with 2,2′-bipyridylElectrochim. Acta, 56, 8880-8883 (2011).

  41. C-C Wu, D-S Chan, C-C Yang, H-P Chiou, H-R Chen, C-L Lee*  “Electrochemical synthesis of Pd–NiO nanoparticles in water-in-oil microemulsions for activating electroless Ni deposition J. Electrochem. Soc. 158,D616-D610 (2011).

  42. C-L Lee,* H-P Chiou, C-M Syu, C-R Liu, C-C Yang, C-C Syu “Displacement triangular Ag/Pd nanoplate as methanol-tolerant electrocatalyst in oxygen reduction reaction Int. J. Hydrogen Energy, 36,12706-12714 (2011).

  43. C-L Lee,*  C-M Syu, H-P Chiou, C-H Chen, H-L Yang “High-yield, size-controlled synthesis of silver nanoplates and their applications as methanol-tolerant electrocatalysts in oxygen reduction reactionInt. J. Hydrogen Energy, 36,10502-10512 (2011).

  44. C-L Lee,*  K-C Chang, C-M Syu "Silver Nanoplates as Inkjet Ink Particles for Metallization at  a low backing temperature of 100 °C" Colloids and Surfaces A: Physicochem. Eng. Aspects, 381, 85-91 (2011).

  45. C-L Lee,* C-C Wu, H-P Chiou, C- M Syu, C-H Huang, C-C Yang "Mesoporous Platinum Nanosponges as Electrocatalysts for the Oxygen Reduction Reaction in an Acidic Electrolyte" Int. J. Hydrogen Energy, 11, 6433-6440 (2011).

  46. N Rahmansyah, C-T Lo*, C-M Syu, C-L Lee* Non-isothermalCrystallization of Polyethylene Oxide/Silver Nanoplate Composites”, Polym. Int.,60, 1380-1389 (2011).

  47. N Rahmansyah, C-T Lo*, C-M Syu, C-L Lee* Isothermal Crystallization of Polyethylene Oxide/Silver Nanoplate Composites”, J. Appl. Polym. Sci., 122, 1236-1244 ( 2011).

  48. C-L Lee,*H-P Chiou, K-C Chang, C-H Huang "Carbon Nanotubes-supported Colloidal Ag-Pd Nanoparticles as Electrocatalysts toward Oxygen Reduction Reaction in Alkaline Electrolyte Int. J. Hydrogen Energy, 36, 2759-2764 (2011).

  49. C-L Lee*,  H-P Chiou,  S-C Wu, C-C Wu  “Alloy Ratio Effect of Pd/Pt Nanoparticles on Carbon Nanotubes for Catalysing Methanol-Tolerant Oxygen Reduction Electrochimica Acta , 56, 687-692 (2010)

  50. C-L Lee*, H-P Chiou, C-M Syu, C-C WuSilver Triangular Nanoplates as Electrocatalyst for Oxygen Reduction ReactionElectrochem. Commun. 12, 1609-1613  (2010)

  51. C-L Lee*, W-C Wu, C-C Wu, H-P Chiou, Y-J Chao  Electrostatic Preparation of Graphite Nanofiber-Supported Ag NanoparticlesJ. Electrochem. Soc. 157, K232-K235. (2010)

  52. C-T Lo*, Y-C Chang, S-C Wu, C-L Lee*,  Effect of Particle Size on the Phase Behavior of Block Copolymer/nanoparticle Composites Colloids and Surfaces A: Physicochem. Eng. Aspects 368, 6-12 (2010)

  53. C-L Lee,* and S-C Wu " One-pot Synthesis of Pt/Carbon Nanotubes by Self-regulated Reduction for Electrocatalysis" J. Nanosci. Nanotechnol. 10, 4650-4656 (2010)

  54. C-L Lee*, C-M Syu  " Electrochemical Synthesis of Hexadecyltrimethy lammonium- Coated Ag Nanopeanuts and their Self-Assembly to Nanonets Colloids and Surfaces A: Physicochem. Eng. Aspects 358, 158-162 (2010).

  55. C-L. Lee,* C-M. Tseng, R-B. Wu, C-C Wu, C-M Syu  "Porous Ag-Pd triangular nanoplates with tunable alloy ratio for catalyzing electroless copper depositionColloids and Surfaces A: Physicochem. Eng. Aspects  352, 84-87 (2009)

  56. C-L. Lee,* C-M. Tseng, C-C Wu,   “Catalytic Activity of Ag-Pd Nanoparticles Prepared by N2H4 Reduction in Electroless Nickel DepositionJ. Chin. Inst. Eng. 33, 105-109 (2010).

  57.  C-L Lee,"Optical Metal Nanoparticles” in Encyclopedia of Nanoscience and Nanotechnology (2nd), edited by H.S. Nalwa, American Scientific Publishers,  (2010) , Invited.

  58. C-L Lee,* C-M Tseng, R-B Wu, and S-C Syu “Synthesis of Highly Active Ag/Pd Nanorings for Activating Electroless Copper DepositionJ. Electrochem. Soc. , 156, D348-D350 (2009) 

  59. C-L Lee,* and S-C Wu  “One-Pot synthesis and electrocatalytic characterization of Pt nanoparticle/carbon powder hybrids induced by self-regulated reduction of sodium n-dodecyl sulfate” Colloid Surf. A-Physicochem. Eng. Asp. 345, 166-172. (2009)

  60. C-L Lee,* C-M Tseng, R-B Wu, C-C Wu, and S-C Syu “Catalytic characterization of hollow silver/palladium nanoparticles synthesized by a displacement reactionElectrochim. Acta, 54, 5544-5547 (2009) 

  61. C-L Lee,* C-M Tseng and R-B Wu “Triangular Ag/Pd nanoplates with sawtooth edges: Displacement synthesis and optical and catalytic propertiesElectrochem. Commun.  11, 627-630   (2009)

  62. C-L Lee,* R-B Wu and C-M Syu  “Self-assembled Pd nanospheres templated with polyvinylpyrrolidone: Electrochemical preparation and their application as novel catalysts in electroless copper depositionElectrochem. Commun.11,  270-273  (2009)

  63. C-L Lee,* C-M Tseng, C-C Wu, T-S Chou and C-M Syu “High Activity of Hexagonal Ag/Pt Nanoshell Catalyst for Oxygen ElectroreductionNanoscale Res. Lett.  4, 193-196 (2009).

  64. C-L Lee,* and C-M Tseng “Ag-Pt nanoplates: Galvanic Displacement Preparation and Their Applications as ElectrocatalystsJ. Phys. Chem. C, 112, 13342-13345  (2008). 

  65. C-L Lee,* C-M Tseng, R-B Wu  and K-L Yang “Hollow Ag/Pd triangular nanoplate : A novel Activator for electroless nickel depositionNanotechnology,19, 215709 (2008)

  66. C-L Lee,* C-M Tseng, S-C Wu, R-BWu  and K-L Yang  Activation of Ag/Pd triangular nanoshells with different szieson deposition electrolessly copper Electrochim. Acta, 53,5905-5908 (2008).

  67. C-L Lee*, C-M Tseng, S-C Wu and R-B Wu “Activator for Electrolessly Depositing Copper from Triangular Ag/Pd NanoshellsElectrochem. Solid State Lett.11, D27-D29 (2008). ( been selected for Virtual Journal of Nanoscale Science & Technology v.16, I.26 (2007))

  68. C-L Lee* Synthesis and electroactivity of carbon-nanomaterials supported Pd nanoparticles from self-regulatedreduction of sodium n-dodecyl sulfate J. Solid State Electrochem. 11, 1313-1317.  (2007)

  69. C-L Lee,* Y-C Huang and L-C Kuo, “Catalytic Effect of Pd nanoparticles on ElectrolessCopper DepositionJ. Solid State Electrochem. 11,639-646. (2007)

  70. S-C Chung, Y-L Tsai, T-C Lin, K-L Change, M-J Chien and C-L Lee*  Electroless Preparation of MacroporousCu Thin Film from Large-Scale-Orderly Colloid Monolayer” Mater. Lett. 6, 1929-1932 (2007)

  71. C-L Lee*, Y-C Huang, L-C Kuo and Y-W Lin, “Preparationof Carbon nanotube-supported palladium nanoparticles by self-regualted reduction of surfactantCarbon,45, 203-206 . (2007)

  72. C-L Lee* and Y-C Huang, “Electroless Activators for Depositing Copper from Self-assembled Palladium Nanospheres with Mesopores Electrochem. Solid State Lett., 9, C196-C198 (2006). ( been selected for Virtual Journal of Nanoscale Science & Technology v.14, I.17 (2006))

  73. C-L Lee*, Y-C Huang, and L-C Kuo, “High catalytic potential of Ag/Pd nanoparticles from self-regulated reduction method on electroless Ni depositionElectrochem. Commun. 8, 1021-1026. (2006)

  74. C-L Lee*, L-C Kuo,Y-C Huang and Y-W Yan, “The Activation Effect of Pd nanoparticles on Electroless Nickel-Phosphorous DepositionElectrochim.  Acta 52,353 (2006)

  75. C-L Lee*, L-C Kuo,Y-C Huang and Y-W Yan, “Mesoporous, Self-assembled Palladium Nanospheres: High Efficiency Activator for Electroless Nickel Deposition Electrochem. Commun. 8, 697(2006).

  76. C-L Lee*, Y-C Huang, L-C Kuo, J-C Oung  and F-C Wu, “Preparation andCharacterization of Pd/Ag and Pd/Ag/Au nanospongeswith network nanowires and their high electroactivities toward oxygen reductionNanotechnology,17, 2390 (2006)

  77. W-L Wang, Y-Y Wang, C-C Wan* and C-L Lee, “Self-assembly of Pd nanoparticlesin deodecanol in situ generated from sodium dodecyl sulfate and its potential applications Colloids and Surfaces A: Physicochem. Eng. Aspects  275, 11 (2006)

  78. F-T Huang, R S. Liu*, S-F Hu, C-L Lee and A. K. Li” Formation of nanostructured cobalt wireswith Chinese caterpillar type structureJ. Vacuum Sci. Tech. B, 24, 1440 (2006)

  79. H-M Chen, H-C Peng, R-S Liu*, K. Asakura, C-L Lee, J-F Lee, S-F Hu, “Controlling the Length andsharp of Gold nanorodsJ. Phys. Chem. B, 109, 19553. (2005)

  80. C-L Lee*, Y-C Huang, C-C Wan, Y-YWang, Y-C Ju and J-C Oung, “Synthesisof hydrophilic and hydrophobic Pd  nanoparticles with in situ generated reducing agent and itsapplication as activator for electroless copper andnickel depositionsJ. Electrochem. Soc. 152, C520. (2005)  

  81. C-L Lee*, Y-C Ju,Y-C Huang, P-T Chou, “Preparation of Pt nanoparticleson Carbon nanotubes and graphite nanofibers via self-regulated reduction of surfactants and their application as electrochemical catalyst  Electrochem. Commun. 7, 453 (2005)

  82. C-L Lee, C-C Yang, and C-C Wan* ”Pd nanopowders: properties, synthesis and application”, in Encyclopedia of Nanoscience and Nanotechnology, edited by H.S. Nalwa, American Scientific Publishers, Volume 8, 397-413(2004), Invited.

  83. C-L Lee, C-C Wan* and Y-Y Wang, “ Pd nanoparticles as a new activator for electroless copper depositionJ. Electrochem. Soc. 150, C520 (2003)

  84. C-L Lee, C-C Wan* and Y-Y Wang, “Synthesis of metal nanoparticles via self-regulated reduction by an alcohol surfactantAdv. Funct. Mater. 11, 344 (2001)

  85. Y-Y Yu, S-S Chang, C-L Lee and C.R.C. Wang* “ Gold nanorods: electrochemical synthesis and optical propertiesJ. Phys. Chem. B 101, 6661 (1997) (Times Cited :1086 (2015))