東吳大學 化學系
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  4. 蘇平貴 教授

 

蘇平貴
教授

學經歷

學歷 :

  • 國立清華大學化學系  博士

經歷 :

  • 2025/02~迄今       東吳大學 化學系 專任教授
  • 2024/08~2025/01 中國文化大學 化學系 教授兼任理工學院副院長
  • 2023/02~2024/07 中國文化大學 化學系 教授兼任理學院院長
  • 2017/08~2021/07 中國文化大學 化學系 教授兼任化學系主任
  • 2010~2025/01      中國文化大學 化學系 專任教授
  • 2007~2010           中國文化大學 化學系 專任副教授
  • 2005~2007           中國文化大學 化學系 專任助理教授
  • 2003/08~2005/07 中州科技大學 通識中心 專任助理教授
  • 2002/10~2003/07 慈惠醫專專任助理教授
  • 2000/10~2023/12 工研院材料所顧問
  • 2000/10~2002/09 工研院量測中心 標準組研究員
  • 1998/10~2000/09 工研院材料所 無機組研究員

聯絡方式
  • 電話(分機) : (02)2881-9471 # 6827
  • E-mail : spg@scu.edu.tw
  • 地址(辦公室) : 台北市士林區11102臨溪路70號超庸館3F  M 301室

講授課程

 

研究方向

本實驗室研究方向以朝向開發功能性材料為主(有機複合材料及辨識材料),並配合發展辨識軟體,製成智慧型的晶片或元件而成一完全感測分析系統(Total sensing system, TSS)應用於環境、工安、生化及食品等檢測應用及生活保健之應用。研究方向略述如下:

  1. Fabrication of chemical gas sensors, such as humidity sensors, gas sensors (NH3, NO2, H2S, H2, CO2, CH4 etc.)
  2. Synthesis of nanocomposite, semiconductor metal oxide, polyelectrolyte polymer, molecular imprinted sol-gel polymer sensing-materials
  3.  Humidity standard technology
  4. Smart sensors and sensing system using PCA and AI system
  5. Fabrication of flexible chemical sensors for using in smart clothing

圖、NO2氣體感測元件製程流程圖

圖、自製NO2氣體感測器監測系統(空氣盒子(Air box))

發表期刊

與專利
  1. P. G. Su*, J. J. Yang, Preparation and NH3 gas-sensing properties of Ag/β-AgVO3 nanorods, Analytical methods 16 (2024) 3058-3066 (IF: 3.1) (2024-05-21) (Corresponding author)
     
  2. P. G. Su*, Y. H. Chen, Fabrication of conifer-like TiSnO2 nanorods for sensing H2S gas at room temperature, Analytical methods 15 (2023) 3975-3983 (IF: 3.1) (2023-07-28) (Corresponding author)
     
  3. P. G. Su*, C. C. Hsu, Flexible humidity sensor based on Au nanoparticles/ organosilica-containing polyelectrolyte composite, Chemosensors 11 (2023) 291 (IF: 4.2) (2023-05-13) (Corresponding author)
     
  4. P. G. Su*, M. S. Tsai, C. J. Lu, Fabrication of noble metals (Au, Ag, Pt)/polythiophene/reduced graphene oxide ternary nanocomposites for sensing NH3 gas at room temperature, Analytical methods 14 (2022) 4113-4121 (IF: 3.532) (2022-11-07) (Corresponding author)
     
  5. P. G. Su*, X. C. Chai, Room-temperature ppb-Level H2S gas sensors based on Ag nanowire/hollow PPy nanotube nanocomposites, Chemosensors 10 (2022) 305 (IF: 4.229) (2022-08-02) (Corresponding author)
     
  6. P. G. Su*, Y. X. Zheng, A room temperature NH3 gas sensor based on a quartz crystal microbalance coated with a rGO-SnO2 composite film, Analytical methods 14 (2022) 1454-1461 (IF: 3.532) (2022-04-07) (Corresponding author)
     
  7. P. G. Su*, W. Y. Lu, One-pot synthesis of plate-like CeO2 nanosheets for sensing NH3 gas at room temperature, Materials Chemistry and Physics 277 (2022) 125453 (IF: 4.094) (2022-02-01) (Corresponding author)
     
  8. P. G. Su*, M. C. Li, Recognition of binary mixture of NO2 and NO gases using a chemiresistive sensors array combined with principal component analysis, Sensors and Actuators A 331 (2021) 112980 (IF: 3.407) (2021-11-01) (Corresponding author)
     
  9. P. G. Su*, N. H. Choy, Electrical and humidity-sensing properties of EuCl2, Eu2O3 and EuCl2/Eu2O3 blend films, Chemosensors 9 (2021) 288 (IF: 3.398) (2021-10-11) (Corresponding author)
     
  10. P. G. Su*, Y. L. Zheng, Room-temperature ppb-level SO2 gas sensors based on RGO/WO3 and MWCNTs/WO3 nanocomposites, Analytical methods 13 (2021) 782-788 (IF: 2.596) (2021-02-14) (Corresponding author)
     
  11. P. G. Su*, P. H. Lu, Electrical and humidity-sensing properties of impedance-type humidity sensors that were made of Ag microwires/PPy/SnO2 ternary composites, Chemosensors 8 (2020) 92 (IF: 3.108) (2020-12-01) (Corresponding author)
     
  12. M. S. Tsai, P. G. Su*, C. J. Lu*, Fabrication of a highly sensitive flexible humidity sensor based on Pt/polythiophene/reduced graphene oxide ternary nanocomposite films using a simple one-pot method, Sensors and Actuators B 324 (2020) 128728 (IF: 7.100) (2020-12-01) (Corresponding author)
     
  13. P. G. Su*, S. Lin-Kuo, H2-gas sensing and discriminating actions of a single-yarn sensor based on a Pd/GO multilayered thin film using FFT, Analytical methods 12 (2020) 3537-3544 (IF: 2.073) (2020-07-21) (Corresponding author)
     
  14. P. G. Su*, J. H. Yu, Enhanced NO2 gas-sensing properties of Au-Ag bimetal decorated MWCNTs/WO3 composite sensor under UV-LED irradiation, Sensors and Actuators A 303 (2020) 111718 (IF: 2.904) (2020-03-01) (Corresponding author)
     
  15. P. G. Su*, X. H. Liu, Preparation and NH3 gas-sensing properties of double-shelled hollow ZnTiO3 microrods, Sensors 20 (2020) 46 (IF: 3.071) (2020-01-15) (Corresponding author)
     
  16. P. G. Su∗, J. H. Yu, I. C. Chen, H. C. Syu, S. W. Chiu, T. I. Chou, Detection of ppb-level NO2 gas by a portable gas-sensing system with a Fe2O3/MWCNTs/WO3 sensor using pulsed-UV-LED, Analytical Methods 11 (2019) 973-979 (IF: 2.073) (2019-02-21) (Corresponding author)
     
  17. P. G. Su∗, Z. H. Liao, Fabrication of a flexible single-yarn NH3 gas sensor by layer-by-layer self-assembly of graphene oxide, Materials Chemistry and Physics 224 (2019) 349–356 (IF: 2.21) (2019-02-15) (Corresponding author)
     
  18. P. G. Su∗, X. H. Lee, Electrical and humidity-sensing properties of flexible metal-organic framework M050(Mg) and KOH/M050 and AuNPs/M050 composites films, Sensors and Actuators B 269 (2018) 110–117 (IF: 5.667) (2018-09-15) (Corresponding author)
     
  19. M. S. Tsai, C. H. Lu, P. G. Su∗, One-pot synthesis of AuNPs/RGO/WO3 nanocomposite for simultaneously sensing hydroquinone and catechol, Materials Chemistry and Physics 215 (2018) 293–298 (IF: 2.21) (2018-08-15) (Corresponding author)
     
  20. P. G. Su∗, C. F. Chang, Fabrication and electrical and humidity-sensing properties of a flexible and stretchable textile humidity sensor, Journal of the Taiwan Institute of Chemical Engineers 87 (2018) 36–43 (IF: 3.849) (2018-06-01) (Corresponding author)
     
  21. P. G. Su∗, F. Y. Chen, C. H. Wei, Simple one-pot polyol synthesis of Pd nanoparticles, TiO2 microrods and reduced graphene oxide ternary composite for sensing NH3 gas at room temperature, Sensors and Actuators B 254 (2018) 1125-1132 (IF:5.401) (2018-01-01) (Corresponding author)
     
  22. P. G. Su∗, W. H. Liao, Effect of adding Au nanoparticles and KOH on the electrical and humidity-sensing properties of WO3 particles, Sensors and Actuators B 252 (2017) 854-861 (IF: 5.401) (2017-11-01) (Corresponding author)
     
  23. P. G. Su*, T. Y. Chuang, Simple and rapid differentiation of toxic gases using a quartz crystal microbalance sensor array coupled with principal component analysis, Sensors and Actuators A 263 (2017) 1-7 (IF:2.499) (2017-08-15) (Corresponding author)
     
  24. P. G. Su*, H. C. Syu, Electrical and humidity-sensing properties of 1-(4-carboxylic acidphenyl)-2,5-dimethyl-1H-pyrrole doped with both KOH and K2CO3 salts, Sensors and Actuators B 240 (2017) 595-603 (IF: 5.401) (2017-03-01) (Corresponding author)
     
  25. P. G. Su*, S. F. Hsu, Modification of gold electrodes using AuNPs/b-cyclodextrin/RGO nanocomposites to detect simultaneously hydroquinone and catechol, Sensor Letters 14 (2016) 635-641 (2016-06-01) (Corresponding author)
     
  26. P. G. Su*, S. R. Chiu, Y. T. Lin, Flexibility and electrical and humidity-sensing properties of N-substituted pyrrole derivatives and composite films of Au nanoparticles/N-substituted pyrrole derivatives, Sensors and Actuators B 224 (2016) 833-840 (IF: 5.401) (2016-03-01) (Corresponding author)
     
  27. P. G. Su*, S. L. Liao, Fabrication of a flexible H2 sensor based on Pd nanoparticles modified polypyrrole films, Materials Chemistry and Physics, 170 (2016) 180-185 (IF:2.084) (2016-02-15) (Corresponding author)
     
  28. P. G. Su*, L. Y. Yang, NH3 gas sensor based on Pd/SnO2/RGO ternary composite operated at room-temperature, Sensors and Actuators B 223 (2016) 202-208 (IF: 5.401) (2016-02-01) (Corresponding author)
     
  29. P. G. Su*, Y. T. Lin, Low-humidity sensing properties of diamine- and b-cyclodextrin-functionalized graphene oxide films measured using a quartz-crystal microbalance, Sensors and Actuators A 238 (2016) 344-350 (IF: 2.499) (2016-02-01) (Corresponding author)
     
  30. P. G. Su*, W. L. Shiu, M. S. Tsai, Flexible humidity sensor based on Au nanoparticles/graphene oxide/thiolated silica sol-gel film, Sensors and Actuators B 216 (2015) 467-475 (IF: 5.401) (2015-09-01) (Corresponding author)
     
  31. P. G. Su*, M. S. Tsai, Layer-by-layer covalent immobilization of acetylcholinesterase and polyamidoamine dendrimer on a gold electrode for detecting organophosphorus pesticides, Sensor Letters 13 (2015) 584-591 (2015-07-01) (Corresponding author)
     
  32. P. G. Su*, Z. M. Lu, Flexibility and electrical and humidity-sensing properties of diamine-functionalized graphene oxide films, Sensors and Actuators B 211 (2015) 157-163 (IF: 5.401) (2015-05-01) (Corresponding author)
     
  33. K. N. Pandiyaraj∗, A. M. Ferraria, A. M. B. do Rego, R. R. Deshmukh, P. G. Su, Jr. M. Halleluyah, A. S. Halim, Low-pressure plasma enhanced immobilization of chitosan on low-density polyethylene for bio-medical applications, Appl. Surf. Sci. 328 (2015) 1-12 (2015-02-15)
     
  34. P. G. Su*, S. L. Peng, Fabrication and NO2 gas-sensing properties of reduced graphene oxide/WO3 nanocomposite films, Talanta 132 (2015) 398-405 (IF:4.162) (2015-01-15) (Corresponding author)
     
  35. P. G. Su*, C. F. Chiou, Electrical and humidity-sensing properties of reduced graphene oxide thin film fabricated by layer-by-layer with covalent anchoring on flexible substrate, Sensors and Actuators B 200 (2014) 9-18 (IF: 5.401) (2014-09-01) (Corresponding author)
     
  36. P. G. Su*, Y. T. Peng, Fabrication of a room-temperature H2S gas sensor based on PPy/WO3 nanocomposite films by in-situ photopolymerization, Sensors and Actuators B 193 (2014) 637-643 (IF: 5.401) (2014-03-31) (Corresponding author)
     
  37. P. G. Su*, L. G. Lin, P. H. Lin, Detection of Cu(II) ion by an electrochemical sensor made of 5,17-bis(4,-nitrophenylazo)-25,26,27,28-tetrahydroxycalix[4]arene- electromodified electride, Sensors and Actuators B 191 (2014) 364-370 (IF: 5.401) (2014-02-01) (Corresponding author)
     
  38. P. G. Su*, H. C. Shieh, Flexible NO2 sensors fabricated by layer-by-layer covalent anchoring and in-situ reduction of graphene oxide, Sensors and Actuators B 190 (2014) 865-872 (IF: 5.401) (2014-01-01) (Corresponding author)
     
  39. P. G. Su*, X. R. Kuo, Low-humidity sensing properties of carboxylic acid functionalized carbon nanomaterials measured by a quartz crystal microbalance, Sensors and Actuators A 205 (2014) 126-132 (IF: 2.499) (2014-01-01) (Corresponding author)
     
  40. P. G. Su*, C. W. Tseng, Detection of bisphenol A using layer-by-layer covalent anchoring of polyamidoamine dendrimer to gold electrodes, Sensor Letters 11 (2013) 1-9 (Corresponding author)
     
  41. P. G. Su*, L. G. Lin, W. H. Tzou, Humidity sensing properties of calix[4]arene and functionalized calix[4]arene measured using a quartz-crystal microbalance, Sensors and Actuators B 181 (2013) 795-801 (IF: 5.401) (2013-05-01) (Corresponding author)
     
  42. P. G. Su*, H. C. Hsu, C. Y. Liu, Layer-by-layer anchoring of copolymer of methyl methacrylate and[3-(methacrylamino)propyl] trimethyl ammonium chloride to gold surface on flexible substrate for sensing humidity, Sensors and Actuators B 178 (2013) 289-295 (IF: 5.401) (2013-03-01) (Corresponding author)
     
  43. P. G. Su*, F. C. Hung, P. H. Lin, Fabrication, characterization and sensing properties of Cu(II) ion imprinted sol-gel thin film on QCM, Materials Chemistry and Physics, 135 (2012) 130-136 (IF: 2.084) (2012-07-16) (Corresponding author)
     
  44. P. G. Su∗, W. H. Tzou, Low-humidity sensing properties of PAMAM dendrimer and PAMAM–Au nanoparticles measured by a quartz-crystal microbalance, Sensors and Actuators A 179 (2012) 44-49 (IF: 2.499) (2012-06-01) (Corresponding author)
     
  45. P. G. Su∗, C. C. Shiu, Electrical and sensing properties of a flexible humidity sensor made of polyamidoamine dendrimer-Au nanoparticles, Sensors and Actuators B 165 (2012) 151-156 (IF: 4.582) (2012-04-01) (Corresponding author)
     
  46. P. G. Su∗, P. H. Lin, Electrical and humidity sensing properties of K+-nano-mica film, Sensors and Actuators B 161 (2012) 838-844  (IF: 4.582) (2012-01-03)
    (Corresponding author)
     
  47. P. G. Su*, C. C. Shiu, Flexible H2 sensor fabricated by layer-by-layer self-assembly of thin films of polypyrrole and modified in situ with Pt nanoparticles, Sensors and
    Actuators B 157 (2011) 275-281.     (IF: 4.582) (2011-09-20) (Corresponding author)
     
  48. P. G. Su*, W. C. Li, J. Y. Tseng, C. J. Ho, Fully transparent and flexible humidity sensors fabricated by layer-by-layer self-assembly of thin film of poly(2-acrylamido-2-methylpropane sulfonate) and its salt complex, Sensors and Actuators B 153 (2011) 29-36. (IF: 4.582) (2011-03-31) (Corresponding author)
     
  49. P. G. Su*, T. T. Pan, Fabrication of a room-temperature NO2 gas sensor based on WO3 films and WO3/MWCNT nanocomposite films by combining polyol process with metal organic decomposition method, Materials Chemistry and Physics 125 (2011) 351-357. (IF: 2.357) (2011-02-15) (Corresponding author)  
     
  50. P. G. Su*, Y. S. Chuang, Flexible H2 sensors fabricated by layer-by-layer self-assembly thin film of multi-walled carbon nanotubes and modified in situ with Pd nanoparticles, Sensors and Actuators B 145 (2010) 521–526. (IF: 4.582) (2010-03-04) (Corresponding author)
     
  51. P. G. Su*, W. C. Shie, The effect of the type of polycation used in mica nanocomposite thin films prepared by layer-by-layer technique on low-humidity sensing, Sensor Letters 8 (2010) 848-856. (IF: 0.756) (Corresponding author)
     
  52. P. G. Su*, C. T. Lee, C. Y. Chou, Flexible NH3 sensors fabricated by in situ self-assembly of polypyrrole, Talanta 80 (2009) 763-769. (IF:3.749) (Corresponding author)
     
  53. P. G. Su*, K. H. Cheng, Self-assembly of polyelectrolytic multilayer thin films of polyelectrolytes on quartz crystal microbalance for detecting low humidity, Sensors and Actuators B 142 (2009) 123–129. (IF: 4.582) (Corresponding author)
     
  54. P. G. Su*, C. T. Lee, C. Y. Chou, K. H. Cheng, Y. S. Chuang, Fabrication of flexible NO2 sensors by layer-by-layer self-assembly of multi-walled carbon nanotubes and their gas sensing properties, Sensors and Actuators B 139 (2009) 488–493. (IF: 4.582) (Corresponding author)
     
  55. P. G. Su*, J. Y. Tseng, Y. C. Huang, H. H. Pan, P. C. Li, Novel fully transparent and flexible humidity sensor, Sensors and Actuators B 137 (2009) 496–500. (IF: 4.582) (Corresponding author)
     
  56. P. G. Su*, K. H. Cheng, Layer-by-layer assembly of mica and polyelectrolyte for use in low-humidity sensor, Sensors and Actuators B 137 (2009) 555–560. (IF: 4.582) (Corresponding author)
     
  57. P. G. Su*, J. F. Tsai, Low-humidity sensing properties of carbon nanotubes measured by a quartz crystal microbalance, Sensors and Actuators B 135 (2009) 506-511. (IF: 4.582) (Corresponding author)
     
  58. P. G. Su*, C. Y. Chen, Humidity sensing and electrical properties of Na- and K-montmorillonite, Sensors and Actuators B 129 (2008) 380-385. (IF: 4.582) (Corresponding author)
     
  59. P. G. Su*, C. P. Wang, Flexible humidity sensor based on TiO2 nanoparticles-polypyrrole-poly- [3-(methacrylamino)propyl] trimethyl ammonium chloride composite materials, Sensors and Actuators B 129 (2008) 538-543. (IF: 4.582) (Corresponding author)
     
  60. P. G. Su*, Y. P. Chang, Low-humidity sensor based on a quartz-crystal microbalance coated with polypyrrole/Ag/TiO2 nanoparticles composite thin films, Sensors and Actuators B 129 (2008) 915-920. (IF: 4.582) (Corresponding author)
     
  61. P. G. Su*, C. S. Wang, “In situ synthesized composite thin films of MWCNTs/PMMA doped with KOH as a resistive humidity sensor”, Sensors and Actuators B 124 (2007) 303-308. (IF: 4.582) (Corresponding author)
     
  62. P. G. Su*, C. S. Wang, “Novel flexible resistive-type humidity sensor” Sensors and Actuators B 123 (2007) 1071-1076. (IF: 4.582) (Corresponding author)
     
  63. P. G. Su*, L. N. Huang, “Humidity sensors based on TiO2 nanoparticles/polypyrrole composite thin films” Sensors and Actuators B 123 (2007) 501-507. (IF: 4.582) (Corresponding author)
     
  64. Y. L. Sun, R. J. Wu, Y. C. Huang, P. G. Su, Murthy Chavali, Y. Z. Chen, C. C. Lin*,In situ prepared polypyrrole for low humidity QCM sensor and related theoretical calculation”, Talanta 73 (2007) 857-861. (IF: 3.749).
     
  65. Y. L. Sun, Y. Z. Chen, R. J. Wu, Murthy Chavali, Y. C. Huang,  P. G. Su,  C. C. Lin*, “Poly(l-lactide) stabilized gold nanoparticles based QCM sensor for low humidity detection” Sensors and Actuators B 126 (2007) 441-446. (IF: 4.582)
     
  66. P. G. Su*, Y. L. Sun, C. S. Wang, C. C. Lin,” Humidity sensing and electrical properties of hybrid films prepared from [3-(methacrylamino)propyl] trimethyl ammonium chloride, aqueous monodispersed colloidal silica and methyl methacrylate” Sensors and Actuators B 116 (2006) 483-489. (IF: 4.582) (Corresponding author)
     
  67. P. G. Su*, Y. L. Sun, C. C. Lin,” Novel low humidity sensor made of TiO2 nanowires/poly(2-acrylamido-2-methylpropane sulfonate composite material film combined with quartz crystal microbalance” Talanta 69 (2006) 946-951. (IF: 3.749) (Corresponding author)
     
  68. P. G. Su*, Y. L. Sun, C. C. Lin, “A low humidity sensor made of quartz crystal microbalance coated with multi-walled carbon nanotubes/Nafion composite material films” Sensors and Actuators B 115 (2006) 338-343. (IF: 3.535) (Corresponding author)
  69. P. G. Su*, C. J. Ho, Y. L. Sun, I. C. Chen, “A micromachined resistive-type humidity sensor with a composite material as sensitive film” Sensors and Actuators B 113 (2006) 837-842. (IF: 3.535) (Corresponding author)
     
  70. P. G. Su*, Y. L. Sun, C. C. Lin, “Humidity sensor based on PMMA simultaneously doped with two different salts” Sensors and Actuators B 113 (2006) 883-886. (IF: 3.535) (Corresponding author)
     
  71. P. G. Su*and S. C. Huang, “Electrical and humidity sensing properties of carbon nanotubes-SiO2-poly(2-acrylamido-2-methylpropane sulfonate) composite material” Sensors and Actuators B 113 (2006) 142-149. (IF: 3.535) (Corresponding author)
     
  72. P. G. Su* and Chyi-Long Uen, “A resistive-type humidity sensor using composite films prepared from poly(2-acrylamido-2-methylpropane sulfonate) and dispersed organic silicon sol” Talanta 66 (2005) 1247-1253 (IF: 3.722) (Corresponding author)
     
  73. P. G. Su* and Chyi-Long Uen, “In situ copolymerization of copolymer of methyl methacrylate and [3-(methacrylamino)propyl] trimethyl ammonium chloride on an alumina substrate for humidity sensing” Sensors and Actuators B 107 (2005) 317-322 (IF: 3.535) (Corresponding author)
     
  74. H. W. Chen*, R. J. Wu, K. H. Chan, Y. L. Sun and P. G. Su "The Application of CNT/Nafion Composite Material Humidity Sensing Measurement " Sensors and Actuators B 104 (2005) 80-84(IF: 3.535)
     
  75. P. G. Su* and S. C. Huang, “Humidity sensing and electrical properties of a composite material of SiO2 and poly-[3-(methacrylamino)propyl] trimethyl ammonium chloride” Sensors and Actuators B 105 (2005) 170-175 (IF: 3.535) (Corresponding author)
     
  76. P. G. Su* and R. J. Wu “Uncertainty of humidity sensors testing by means of divided-flow generator” Measurement 36 (2004) 21-27 (IF:0.500) (Corresponding author)
     
  77. P. G. Su* and W. Y. Tsai, “Humidity sensing and electrical properties of a composite material of nano-sized SiO2 and poly(2-acrylamido-2-methylpropane sulfonate)” Sensors and Actuators B 100 (2004) 417 (IF: 3.535) (Corresponding author)
     
  78. P. G. Su* and I. C. Chen, Laminating two-layer thick films structure tin oxide-based butane gas sensor operating at low temperature” Sensors and Actuators B 99 (2004) 304. (IF: 3.535) (Corresponding author)
     
  79. Bee-Yu Wei*, Ming-Chih Hsu, Pi-Guey Su, Hong-Ming Lin, Ren-Jang Wu, Hong-Jen Lai “A novel SnO2 gas sensor doped with carbon nanotubes operating at room temperature” Sensors and Actuators B 101 (2004) 81-89. (IF: 3.535)
     
  80. P. G. Su*, R. J. Wu and, F. P. Nieh “Detection of nitrogen dioxide using mixed tungsten oxide-based thick film semiconductor sensor” Talanta 59 (2003) 667-672. (IF: 3.722) (Corresponding author)
     
  81. R. J. Wu*, C. H. Hu, C. T. Y. and P. G. Su, “Nanogold powdered cobalt oxide for carbon monoxide sensor” Sensors and Actuators B 96 (2003) 596. (IF: 3.535)
     
  82. P. G. Su*, I. C. Chen and R. J. Wu, “Use of poly(2-acrylmido-2-methylpropane sulfonate) modified with tetraethyl orthosilicate as sensing material for measurement of humidity” Anal. Chim. Acta 449 (2001) 103. (IF: 3.757) (Corresponding author)
     
  83. S. D. Huang*, P. G. Su, S. P. Huang, Y. L. Ho and T. Y. Tsai, “Adsorbing colloid flotation with polyaluminum chloride: a powerful technique for removing heavy metals from wastewater” Separation Science and Technology 35 (2000) 1223.
     
  84. P. G. Su and S. D. Huang*, “Determination of organophosphorus pesticides in water by solid-phase microextraction” Talanta 49 (1999) 393. (IF: 3.290)
     
  85. P. G. Su and S. D. Huang*, “Use of 4-(2-pyridylazo)resocinol or 2-(2-pyridylazo)-5-dimethylaminophenol as chelating agent for determination of cadmium in seawater by atomic absorption spectrometry with on-line flow-injection sorbent extraction” Anal. Chim. Acta, 376 (1998) 305. (IF: 3.757)
     
  86. P. G. Su and S. D. Huang*, “Direct and simultaneous determination of copper and manganese in seawater with a multielement graphite furnace atomic absorption spectrometer” Spectrochim. Acta, 53B (1998) 699. (IF: 2.719)
     
  87. P. G. Su and S. D. Huang*, “Direct and simultaneous determination of molybdenum and vanadium in seawater by a multielement graphite furnace atomic absorption spectrometer” J. Anal. At. Spectrom., 13 (1998) 641. (IF: 3.435)

執行計畫

國科會計畫 (近五年內):

  1. 節能暨智慧型冷媒氣全感測模組開發及現場偵測應用(NSTC 113-2113-M-031-004)
  2. 高感度且可定量之貼片式氣致色變化學感測器開發應用於即時微洩漏氣體檢測 (NSTC 112-2113 M-034-005-)
  3. 耐水洗穿戴式單根綿線感測元件及其感測器陣列整合和室溫型高選擇性石化設備洩漏偵測之感測系統開發(2/2) (MOST 111-2113-M-034-001-)
  4. 耐水洗穿戴式單根綿線感測元件及其感測器陣列整合和室溫型高選擇性石化設備洩漏偵測之感測系統開發(1/2) (MOST 110 -113-M-034-002-)
  5. 環境空氣品質物聯網之氣體感測元件開發(2/2)(MOST 109-2113 M-034-001-)

產學合作:

  1. 高靈敏NO2LPG室溫型感測材料與元件委託製作與其場域測試分析
  2. NO2NH3SO2感測元件製 作與檢測分析

獎助與榮譽

 

優良事蹟 :

  1.  史丹佛大學透過 Scopus 的論文影響力數據,發布 「2023全球前 2% 頂尖科學家榜單(World’s Top 2% Scientists 2023)」,入選「終身科學影響力排行榜(1960-2023)」及「2023 年度科學影響力排行榜」的前2%名單中。資料來源如下:https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/7
     
  2. 史丹佛大學透過 Scopus 的論文影響力數據,發布 「2022全球前 2% 頂尖科學家榜單(World’s Top 2% Scientists 2022)」,入選「終身科學影響力排行榜(1960-2022)」及「2022 年度科學影響力排行榜」的前2%名單中。資料來源如下: https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/6
     
  3. 史丹佛大學透過 Scopus 的論文影響力數據,發布 「2021全球前 2% 頂尖科學家榜單(World’s Top 2% Scientists 2021)」,入選「終身科學影響力排行榜(1960-2021)」及「2021 年度科學影響力排行榜」的前2%名單中。資料來源如下:https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/4
     
  4. 史丹佛大學透過 Scopus 的論文影響力數據,發布 「2020全球前 2% 頂尖科學家榜單(World’s Top 2% Scientists 2020)」,入選「終身科學影響力排行榜(1960-2020)」及「2020 年度科學影響力排行榜」的前2%名單中。資料來源如下:https://www.elsevier.com/zh-tw/solutions/scopus/worlds-top-2-percent-scientists-2020-taiwan
     
  5. SchlarGPS所發布2022在Actuator及Sensor領域獲得全球前0.05%的終身最高排行學者。https://scholargps.com/scholars/98694757255725/pi-guey-su

 

 

 

 

    

 

 

 

專利 :

  1. I-Cherng Chen, Pi-Guey Su, Hong-Ci Syu, Hui-Yu Cho, Pin-Chou Li, Jian-Hong Wu, Ren-Der Jean, Oxidizing gas detection method and apparatus thereof, 美國專利 證號 10768135 (2020)。
  2. 闕妙如、蘇平貴、黃奕笑、陳一誠、石東生” Gas sensor with nanowires of zino oxide or indium/zinc mixed oxides and method of detecting NOx gas” 美國專利 證號7631540 (2010)。
  3. 陳慧雯、吳仁彰、孫益陸、蘇平貴 “Humidity sensor element, device and method for manufacturing thereof” 美國專利 證號7270002 (2008)。
  4. 闕妙如、蘇平貴、黃奕笑、陳一誠、石東生”含有氧化鋅或銦鋅混合氧化物奈米線的氣體感測器及偵測NOx氣體的方法” 中華民國專利 證號 I 281539 (2007)。
  5. 陳慧雯、吳仁彰、孫益陸、蘇平貴 “Humidity sensor element, device and method for manufacturing thereof” 英國專利 證號GB2407384 (2006)。
  6. 陳慧雯、吳仁彰、孫益陸、蘇平貴 ”濕度感測元件、裝置及其製造方法” 中華民國專利 證號 I 242639 (2005)。
  7. 孫益陸、吳仁彰、陳宏豪、蘇平貴 ”石英晶體微天平裝置” 中華民國專利 證號 I 220687 (2004)。
  8. 魏碧玉、賴宏仁、蘇平貴、吳仁彰、林鴻明、孫益陸 ”氣體感測器及其製造方法” 中華民國專利 證號 202724 (2004)。
  9. 吳仁彰、蘇平貴、胡正鴻、葉君棣 “固態電解質式氣體感測元件及氣體感測裝置” 中華民國專利 證號 192089 (2004)。
  10. 吳仁彰、蘇平貴、胡正鴻、葉君棣 “半導體式氣體感測元件及氣體感測裝置” 中華民國專利 證號 194270 (2004)。
  11. 蘇平貴、陳一誠、吳仁彰 ”濕度感測材料以及製備該濕度感測材料的方法” 中華民國專利 證號169161 (2003)。
  12. 蘇平貴 ”滲透裝置之成型裝置及其成型方法” 中華民國專利 證號162204 (2002)。

 

 

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