劉豫川(Liu, Yu-Chuan) 教授

Email
liuyc@tmu.edu.tw
現   職
生物化學暨細胞分子生物學科 教授

學經歷

學 歷

畢業學校與學位[修業時間]
國立台灣科技大學化工所 博士
1995/09~2000/01
國立成功大學化工所 碩士
1986/09~1988/06
國立成功大學化工系 學士
1982/09~1986/06

本校學術經歷

任職單位與職稱[起迄時間]
生物化學暨細胞分子生物學科教授
2014/08/01~
生化學科教授
2010/08/01~2014/07/31

本校兼職教學行政經歷

服務單位與職稱[起迄時間]
奈米醫學工程研究所教授
2016/02/01 ~

其它經歷

任職單位與職稱[起迄時間]
萬能科技大學教授
2003/02/01~2010/07/31
萬能科技大學副教授
2000/02/01~2003/01/31
萬能科技大學講師
1990/08/01~2000/01/31

專長與研究領域

學門領域
奈米金屬製備與應用
表面增強拉曼光譜
奈米金化妝品
酒-咖啡-茶品質提升
學術專長
表面增強拉曼光譜基材製造

論文著作

清冊下載

論文 Journal Paper


1. 2024 Kao WY,Yu SH,Mai FD,Tsai HY,Chen JW,Liu YC. Extracting Pesticides from Shallots Utilizing Environmentally Friendly Vapors of in Situ Plasmon-Activated Water . ACS Sustainable Chemistry & Engineering .2024 ;(12):7136-7146

2. 2024 Yu SH,Chang CC,Mai FD,Tsai HY,Liu YC. Experiment-based new insights into hydrogen bonds between alcohol and water through reduced-hydrogen-bonded plasmon-activated water . Journal of Industrial and Engineering Chemistry .2024 ;(137):183-194

3. 2024 More-energetic vapors of in situ plasmon-activated water as an environmentally friendly etchant . Journal of Industrial and Engineering Chemistry .2024 ;(140):215-224

4. 2024 Kao WY,Yu SH,Mai FD,Tsai HY,Chen JW,Liu YC. More-energetic vapors of in situ plasmon-activated water as an environmentally friendly etchant . Journal of Industrial and Engineering Chemistry .2024 ;(140):215-224

5. 2024 Yu SH,Mai FD,Kao WY,Tsai HY,Tsai TH,Liu YC. Engineered stable electron-doping water with higher chemical activity catalyzes itself in hydrogen evolution reactions . International Journal of Hydrogen Energy .2024 ;(88):1060-1071

6. 2023 Yang CP,Kao WY,Yu SH,Mai FD,Tsai HY,Chen JW, Liu YC. Environmentally friendly etchant of in situ plasmon-activated water to improve SERS sensing of pesticides . Sensors and Actuators B: Chemical .2023 ;(374):132798-132798

7. 2023 Yu SH,Yang CP,Mai FD,Tsai HY,Liu YC. Preparation of pure active water for auto-catalytic reactions performed in it . Nanoscale .2023 ;(15):3919-3919

8. 2023 Yu SH,Chang CC,Mai FD,Tsai HY,Liu YC. Engineered active pure water with reduced hydrogen bonds catalyzes itself in green energy production of oxygen and hydrogen evolution reactions . Chemical Engineering Journal .2023 ;(470):144379-144379

9. 2023 Yu SH,Mai FD,Kao WY,Tsai HY,Liu YC. Catalytic green energy production based on engineered active water innovatively prepared using sunlight-illuminated gold nanoparticles . Journal of Industrial and Engineering Chemistry .2023 ;(127):406-415

10. 2022 Chang CC,Liu CY,Su IC,Lee YJ,Yeh HJ,Chen WC, Yu CJ, Kao, WY, Liu YC; Huang CJ. Functional plasmon-activated water increases Akkermansia muciniphila abundance in gut microbiota to ameliorate inflammatory bowel disease . International Journal of Molecular Science .2022 ;(23):11422-11422

11. 2022 Yu SH,Chang CC,Mai FD,Yang CP,Liu YC. Plasmon-activated water can form stronger intermolecular hydrogen bonding with water-soluble alcohols and dissolve more hydrophobic solutes . Chemical Engineering Journal .2022 ;(427):131949-131949

12. 2022 Renn TY,Yang CP,Wu UI,Chen LY,Mai FD,Tikhonova MA, Amstislavskaya TG, Liao WC, Lin CT, Liu YC, Chang HM. Water composed of reduced hydrogen bonds activated by localized surface plasmon resonance effectively enhances anti-viral and anti-oxidative activities of melatonin . Chemical Engineering Journal .2022 ;(427):131626-131626

13. 2022 Yang CP,Yu SH,Liu YC. Green and sustainable applications of energetic plasmon-activated water . Journal of Industrial and Engineering Chemistry .2022 ;(111):18-34

14. 2021 Yu SH,Chang CC,Mai FD,Tsai HY,Liu YC. Catalytic Reduction Utilizing Innovative Plasmon-Activated Water and Its Vapor . ACS Sustainable Chemistry & Engineering .2021 ;(9):411-421

15. 2021 Yu SH ,Kao WY,Mai FD ,Tsai HY ,Liu YC. Comprehensively active condensed water from vapors of plasmon-activated water . Chemical Engineering Journal .2021 ;(426):130875-130875

16. 2021 Kao WY ,Yu SH,Mai FD ,Tsai HY ,Liu YC. Innovative strategy on improved surface-enhanced Raman scattering sensing by using plasmon-activated water dissolving analyte . Journal of Electroanalytical Chemistry .2021 ;(891):115287-115287

17. 2020 Yang CP,Fang SU,Tsai HY,Chen JW,Liu YC. Newly prepared surface-enhanced Raman scattering-active substrates for sensing pesticides . Journal of Electroanalytical Chemistry .2020 ;(861):113965-113965

18. 2020 Yang CP,Yu SH,Mai FD,Kuo TC,Liu YC. New Solar Energy-Storage Resource of Plasmon-Activated Water Solution with Higher Chemical Potential . Scientific Reports .2020 ;(10):20868-20868

19. 2019 Yang CP,Hong CT,Mai FD,Tsai HY,Liu YC. Increasing electrochemical reaction rates using treated water with reduced hydrogen bonds . Journal of Electroanalytical Chemistry .2019 ;(839):116-122

20. 2019 Chen HC,Yang CP,Hong CT,Hsu CT,Hu CC,Yu-Chuan Liu. Potential for Plasmon-Activated Water as A Comprehensive Active Green Energy Resource . ACS Omega .2019 ;(4):8007-8014

21. 2019 Yang CP,Wu YH,Tsai HY,Yang JH,Liu YC. Plasmon-Activated Water can Prolong Existing of Sea-Ice Habitat for Potentially Saving Polar Bears . Scientific Reports .2019 ;(9):10398-10398

22. 2019 Cheng CH,Lin KJ,Hong CT,Wu D,Chang HM,Liu CH, Hsiao IT, Yang CP, Liu YC, Hu CJ. Plasmon-Activated Water Reduces Amyloid Burden and Improves Memory in Animals with Alzheimer’s Disease . Scientific Reports .2019 ;(9):13252-13252

23. 2019 Yang CP,Tsai HY,Tseng CL,Hao PJ,Liu YC. Strategy on Persisting in Distinct Activity of Plasmon-Activated Water . ACS Omega .2019 ;(4):21197-21203

24. 2018 Chen HC,Chang CC,Yang KH,Mai FD,Tseng CL,Chen LY , Hwang BJ, Liu YC. Polypyrrole electrode with a greater electroactive surface electrochemically polymerize d in plasmon-activate d water . Journal of the Taiwan Institute of Chemical Engineers .2018 ;(82):252-260

25. 2018 Chen HC,Cheng CY,Chen LY,Chang CC,Yang CP,Mai FD, Liao WC, Chang HM, Liu YC. Plasmon-activated water effectively relieves hepatic oxidative damage resulted from chronic sleep deprivation . RSC Advances .2018

26. 2018 Wang CK,Chen HC,Fang SU,Ho CW,Tai CJ,Yang CP, Liu YC . Innovatively Therapeutic Strategy on Lung Cancer by Daily Drinking Antioxidative Plasmon-Induced Activated Water . Scientific Reports .2018 ;(8):6316-6316

27. 2018 Effectively reducing reagent concentrations for electrochemical reactions in aqueous solutions using plasmon-activated water . Journal of Electroanalytical Chemistry .2018 ;(818):44-50

28. 2018 Yang CP ,Fang SU,Yang KH,Tsai HY ,Liu YC. Effectively reducing reagent concentrations for electrochemical reactions in aqueous solutions using plasmon-activated water . Journal of Electroanalytical Chemistry .2018 ;(818):44-50

29. 2018 Chen HC,Chen YR,Yang KH,Yang CP,Tung KL,Lee MJ, Shih JH, Liu YC. Effective reduction of water molecules' interaction for efficient water evaporation in desalination . Desalination .2018 ;(436):91-97

30. 2018 Yang CP ,Liu YC. Therapeutics for Inflammatory-Related Diseases Based on Plasmon-Activated Water: A Review . International Journal of Molecular Sciences .2018 ;(19):1589-1589

31. 2018 Yang CP ,Fang SU,Yang KH,Chen HC,Tsai HY,Mai FD, Liu YC. Surface-Enhanced Raman Scattering-Active Substrate Prepared with New Plasmon-Activated Water . ACS Omega .2018 ;(3):4743-4751

32. 2017 Creating functional water by treating excited gold nanoparticles for the applications of green chemistry, energy and medicine: A review . Journal of Industrial and Engineering Chemistry .2017

33. 2016 Chen HC,Mai FD,Hwang BJ,Lee MJ,Chen CH,Wang SH, Tsai HY, Yang CP, Liu YC. Creation of Electron-doping Liquid Water with Reduced Hydrogen Bonds . Scientific Reports .2016 ;(6):22166-22166

34. 2016 Chen HC,Mai FD,Yang KH,Tsai HY,Yang CP,Chen CC, Chen CH, Liu YC. Environmentally friendly etching agent: vapor from hot electron-activated liquid water . Green Chemistry .2016 ;(18):3098-3105

35. 2016 Chen HC,Mai FD,Yang KH,Chen LY,Yang CP,Liu YC. Triggering comprehensive enhancement in oxygen evolution reaction by using newly created solvent . Scientific Reports .2016 ;(6):28456-28456

36. 2016 Chen HC,Cheng CY,Lin HC,Chen HH,Chen, CH,Yang CP, Yang KH, Lin CM, Lin TY, Shih CM, Liu YC. Multifunctions of Excited Gold Nanoparticles Decorated Artificial Kidney with Efficient Hemodialysis and Therapeutic Potential . ACS Applied Materials & Interfaces .2016 ;(8):19691-19700

37. 2015 Chen HC,Mai FD,Yang KH,Chen LY,Yang CP,Liu YC. Quantitative Evaluation on Activated Property-Tunable Bulk Liquid Water with Reduced Hydrogen Bonds Using Deconvoluted Raman Spectroscopy . Analytical Chemistry .2015 ;(87):808-815

38. 2015 Fang SU,Hsu CL,Hsu TC,Juang MY,Liu YC. Surface roughness-correlated SERS effect on Au island-deposited substrate . J. Electroanal. Chem. .2015 ;(741):127-133

39. 2015 Tsai HY,Chen HC,Mai FD,Yu CC,Chang CC,Liu YC. One-step fabrication of SERS-active substrates based on plasmon-induced activated water, with improved activity and excellent reproducibility . Journal of Electroanalytical Chemistry .2015 ;(750):27-35

40. 2015 Chang CC,Chen LY,Yang KH,Chen QY,Liang YC,Lin SY, Liu YC. Surface-enhanced Raman scattering on silver film-modified Au nanoparticles-decorated SiO2 mask array . RSC Advances .2015 ;(5):66096-66103

41. 2015 Hwang BJ,Chen HC,Mai FD,Tsai HY,Yang CP,Rick J, Liu YC. Innovative Strategy on Hydrogen Evolution Reaction Utilizing Activated Liquid Water . Scientific Reports .2015 ;(5):16263-16263

42. 2015 Yang CP,Chen HC,Wang CC,Tsai PW,Ho CW,Liu YC. Effective Energy Transfer via Plasmon-Activated High-Energy Water Promotes Its Fundamental Activities of Solubility, Ionic Conductivity, and Extraction at Room Temperature . Scientific Reports .2015 ;(5):18152-18152

43. 2014 Ou KL,Hsu TC,Liu YC,Yang KH,Tsai HY. Silver overlayer-modified surface-enhanced Raman scattering-active gold substrates for potential applications in trace detection of biochemical species . Analytica Chimica Acta .2014 ;(806):188-196

44. 2014 Chen LY,Yang KH,Chen HC,Liu YC,Chen CH,Chen QY. Innovative fabrication of Au nanoparticles-decorated SiO2 mask and its activity on surface-enhanced Raman scattering . Analyst .2014 ;(139):1929-1937

45. 2014 Chen HC,Hwang BJ,Mai FD,Liu YC,Lin CM,Kuo HS,Chou DS, Lee MJ, Yang KH, Yu CC, Chen JR, Lo TY, Tsai HY, Yang CP, Wang C, Hsieh HT, Rick J. Active and Stable Liquid Water Innovatively Prepared Using Resonantly Illuminated Gold Nanoparticles . ACS Nano .2014 ;(8):2704-2713

46. 2014 Mai FD,Yu CC,Liu YC,Chang, CC,Yang KH. Highly effective surface-enhanced Raman scattering-active gold substrates prepared by using electrochemical methods in the presence of hexadecyltrimethylammonium bromide . J. Electroanal. Chem. .2014 ;(712):96-102

47. 2014 Chen HC,Hsu TC,Liu YC,Yang KH. Surfactant-assisted preparation of surface-enhanced Raman scattering-active substrates . RSC Advances .2014 ;(4):10553-10559

48. 2014 Chen HC,Lin HC,Chen HH,Mai FD,Liu YC,Lin CM, Tsai, HY, Yang, CP. Innovative strategy with potential to increase hemodialysis efficiency and safety . Scientific Reports .2014 ;(4):4425

49. 2014 Chen HC,Hsu TC,Liu YC,Yu CC. New sample preparation procedure for effective improvement on surface-enhanced Raman scattering effects . J. Electroanal. Chem. .2014 ;(724):48-54

50. 2014 Lou HY,Yang KH,Chen HC,Liu YC,Yu CC. More conductive polypyrrole electrodeposited on substrates with close-packed gold nanoparticles . J. Electroanal. Chem. .2014 ;(722-3):83-89

51. 2014 Yang KH,Mai FD,Yu CC,Liu YC. Room-temperature sensor based on surface-enhanced Raman spectroscopy . Analyst .2014

52. 2014 Tsai TH,Lin SY,Yang KH,Yang CP,Liu YC. More healthy teas innovatively treated utilizing gold nanoparticles . RSC Advances .2014 ;(4):in-press

53. 2013 Tsai TH,Yu CC,Liu YC,Yang KH. Effectively Catalytic Decomposition of Acetaldehydes in Spirits by Using Chitosan-Capped Gold Nanoparticles . J. Appl. Polym. Sci. .2013 ;(130):86-91

54. 2013 Chang CC,Yu CC,Liu YC,Yang KH. Al2O3-modified surface-enhanced Raman scattering-active gold nanoparticles on substrates by using sonoelectrochemical pulse deposition . Journal of Electroanalytical Chemistry .2013 ;(696):38-44

55. 2013 Ou KL,Hsu TC,Liu YC,Yang KH,Sun WH. Strategy on effective detection of acetaldehydes by using surface-enhanced Raman scattering-active chitosan-capped nanostructured Au . Journal of Electroanalytical Chemistry .2013 ;(702):66-71

56. 2013 Ou KL,Hsu TC,Liu YC,Yang KH. Controllably catalytic decomposition of acetaldehyde in solution by using gold nanoparticles released from sonoelectrochemically prepared gold microsheets . Journal of Electroanalytical Chemistry .2013 ;(701):25-31

57. 2013 Mai FD,Yu CC,Liu YC,Chang CC,Yang KH. Highly effective surface-enhanced Raman scattering-active gold substrates prepared by using electrochemical methods in the presence of hexadecyltrimethylammonium bromide . Journal of Electroanalytical Chemistry .2013

58. 2012 Mai FD,Hsu TC,Liu YC,Yang KH. Improved performance of surface-enhanced Raman scattering on silver substrates prepared in nitric acid solutions . Journal of Raman Spectroscopy .2012 ;(43):724-729

59. 2012 Chang CC,Yang KH,Liu YC,Yu CC. Surface-enhanced Raman scattering-active silver nanostructures with two domains . Analytica Chimica Acta .2012 ;(709):91-97

60. 2012 Mai FD,Yu CC,Liu YC,Hsu TC,Wu YH. New Strategy to Prepare Platinum Salts by Electrochemical Methods and Subsequent Synthesis of Platinum Nanoparticles . Materials Research Bulletin .2012 ;(47):167-171

61. 2012 Kuo TC,Hsu TC,Liu YC,Yang KH. Size-controllable synthesis of surface-enhanced Raman scattering-active gold nanoparticles coated on TiO2 . Analyst .2012 ;(137):3847-3853

62. 2012 Chang CC,Yang KH,Liu YC,Yu CC,Wu YH. Surface-enhanced Raman scattering-active gold nanoparticles modified with a monolayer of silver film . Analyst .2012 ;(137):4943-4950

63. 2012 Mai FD,Yang KH,Liu YC,Hsu TC. Improved stabilities on surface-enhanced Raman scattering-active Ag/Al2O3 films on substrates . Analyst .2012 ;(137):5906-5912

64. 2012 Chen YC,Yu CC,Lo TY,Liu YC. Size-controllable synthesis of catalyst of gold nanoparticles with capping agents of natural chitosan . Materials Research Bulletin .2012 ;(47):1107-1112

65. 2012 Chang CC,Yang KH,Liu YC,Hsu TC,Mai FD. Surface-Enhanced Raman Scattering-Active Au/SiO2 Nanocomposites Prepared Using Sonoelectrochemical Pulse Deposition Methods . ACS Applied Materials & Interfaces .2012 ;(4):4700-4707

66. 2012 Lo TY,Yu CC,Liu YC,Yang KH,Chen QY. Size-controllable synthesis of catalyst of gold nanoparticles supported on TiO2 by using sonoelectrochemical methods . Materials Research Bulletin .2012

67. 2012 Ou KL,Yang KH,Lo TY,Liu YC,Chen YZ. Strategy to controllably release gold nanoparticles from hexadecyltrimethylammonium bromide-capped gold microparticles . Electrochimica Acta .2012 ;(70):272-277

68. 2012 Ou KL,Hsu TC,Liu YC,Yang KH. Influence of drying treatment to electrochemically roughened Ag substrates on the corresponding surface-enhanced Raman scattering performances . Materials Chemistry and Physics .2012 ;(135):892-896

69. 2012 Chang CC,Yang KH,Liu YC,Shu TC. New pathway to prepare gold nanoparticles and their applications in catalysis and surface-enhanced Raman scattering . Colloids and Surfaces B: Biointerfaces .2012 ;(93):169-173

70. 2011 Mai FD,Yang KH,Liu YC,Hsu TC,Juang MY. New electrochemical method to deposit surface-enhanced Raman scattering-active silver nanoparticles on metal substrates . RSC Advances .2011 ;(1):1324-1332

71. 2011 Chang CC,Hsu TC,Liu YC,Yang KH. Surface-Enhanced Raman Scattering-Active Silver Substrates Electrochemically Prepared in Solutions Containing Bielectrolytes . J. Mater. Chem. .2011 ;(21):6660-6667

72. 2011 Ou KL,Yu CC,Liu YC,Yang KH,Wang CC,Chen QY. Sonoelectrochemical synthesis of chitosan/gold nanocomposites for application in removing toxic materials in mainstream smokes . Materials Research Bulletin .2011 ;(46):2333-2337

73. 2011 Mai FD,Hsu TC,Liu YC,KH Yang. Strategy of fabricating enriched gold nanoparticles based on electrochemical methods . Materials Letters .2011 ;(65):1788-1790

74. 2011 Mai FD,Yu CC,Liu YC,Yang KH,Juang MY. Preparation of Surface-Enhanced Raman Scattering-Active Au/Al2O3 Colloids by Sonoelectrochemical Methods . The Journal of Physical Chemistry C .2011 ;(115):13660-13666

75. 2011 Mai FD,Hsu TC,Liu YC,Yang KH,Chen BC. A new strategy to prepare surface-enhanced Raman scattering-active substrates by electrochemical pulse deposition of gold nanoparticles . Chemical Communications .2011 ;(47):2958-2960

76. 2011 Ou KL,Yang KH,Liu YC,Hsu TC,Chen QY. New strategy to prepare enriched and small gold nanoparticles by sonoelectrochemical pulse methods . Electrochimica Acta .2011 ;(58):497-502

77. 2010 Yang KH,Liu YC,Yu CC. Simple Strategy to Improve Surface-Enhanced Raman Scattering Based on Electrochemically Prepared Roughened Silver Substrate . Langmuir .2010 ;(26):11512-11517

78. 2010 Yang KH,Liu YC,Hsu TC,Juang MY. Strategy to improve stability of surface-enhanced Raman scattering-active Ag substrates . Journal of Materials Chemistry .2010 ;(20):7530-7535

79. 2010 Yang KH,Liu YC,Yu CC,Chen BC. New Pathway to Prepare Surface-Enhanced Raman Scattering-Active Au/TiO2 Nanocomposites-Containing Substrates by Sonoelectrochemical Methods . The Journal of Physical Chemistry (Part C) .2010 ;(114):12863-12869

80. 2010 Yu CC,Liu YC,Yang KH,Li CC,Wang CC. A New and Clean Method on Synthesis of Gold Nanoparticles from Bulk Gold Substrates . Materials Chemistry and Physics .2010

81. 2010 Yu CC,Liu YC,Yang KH,Tsai HY. Simple method to prepare size-controllable gold nanoparticles in solutions and their applications on surface-enhanced Raman scattering . Journal of Raman Spectroscopy .2010

82. 2010 Yang KH,Liu YC,Yu CC. Electrochemically Prepared Surface-Enhanced Raman Scattering-Active Silver Substrates with Improved Stabilities . Spectrochimica Acta A .2010

83. 2009 Yang KH,Liu YC,Yu CC. Temperature effect of electrochemically roughened gold substrates on polymerization electrocatalysis of Polypyrrole . Analytica Chimica Acta .2009 ;(631):40-46

84. 2009 Liu YC,Yang KH,Hsu TC. Direct evidence of chemical effect of surface-enhanced Raman scattering observed on electrochemically prepared rough gold substrates . Analytica Chimica Acta .2009 ;(636):13-18

85. 2009 Liu YC,Yang KH,Hsu TC. Improved Surface-Enhanced Raman Scattering Performances on Silver-Silica Nanocomposites . J. Phys. Chem. C .2009 ;(113):8162-8168

86. 2008 Yang KH,Liu YC,Yu CC. Enhancements in Intensity and Stability of Surface-Enhanced Raman Scattering on Optimally Electrochemically Roughened Silver Substrates . J. Mater. Chem. .2008 ;(18):4849-4855

87. 2008 Liu YC,Yu CC,Hsu TC. Effect of TiO2 Nanoparticles on the Improved Performances on Electrochemically Prepared Surface-Enhanced Raman Scattering-Active Silver Substrates . J. Phys. Chem. C .2008 ;(112):16022-16027

88. 2007 Liu YC,Yu CC,Wang CC. Novel Surface-Enhanced Raman Scattering-Active Silver Substrates Containing Visible Light-Responsible TiO2 Nanoparticles . J. Mater. Chem. .2007 ;(17):2120-2124

研究計畫

計畫名稱
113 太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用(3/3)
補助單位
國家科學及技術委員會
計畫名稱
113 貴機構(生化學科劉豫川教授)隨專題研究計畫延攬游世豪君參與「太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用」研究計畫案,申請本部補助,業經核定以「博士級研究人員」資格補助(MOST 111-2811-E-038-001-MY3),補助項目為研究費、年終獎金、離職儲金、保險費等,請查照。
補助單位
國家科學及技術委員會
計畫名稱
112 太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用(2/3)
補助單位
國家科學及技術委員會
計畫名稱
112 貴機構(生化學科劉豫川教授)隨專題研究計畫延攬游世豪君參與「太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用」研究計畫案,申請本部補助,業經核定以「博士級研究人員」資格補助(MOST 111-2811-E-038-001-MY3),補助項目為研究費、年終獎金、離職儲金、保險費等
補助單位
國家科學及技術委員會
計畫名稱
111 太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用(1/3)
補助單位
國家科學及技術委員會
計畫名稱
111 太陽能製備電漿活化水與電漿活化水之蒸餾水的開發與創新應用
補助單位
國家科學及技術委員會
計畫名稱
110 創新電漿活化水製備表面增強拉曼散射活性基材
補助單位
科技部
計畫名稱
110 創新電漿活化水製備表面增強拉曼散射活性基材(3/3)
補助單位
國家科學及技術委員會
計畫名稱
109 創新電漿活化水製備表面增強拉曼散射活性基材
補助單位
科技部
計畫名稱
109 電漿活化水在綠色化學與神經醫學上的創新應用(3/3)
補助單位
科技部
計畫名稱
109 創新電漿活化水製備表面增強拉曼散射活性基材(2/3)
補助單位
科技部
計畫名稱
109 發展以表面增強拉曼光譜檢測農藥之策略
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科技部
計畫名稱
109 發展以表面增強拉曼光譜檢測農藥之策略
補助單位
品佳科技有限公司
計畫名稱
108 小分子再製水設備功能量測研究計畫
補助單位
翔安生醫科技股份有限公司
計畫名稱
108 電漿活化水在綠色化學與神經醫學上的創新應用(2/3)
補助單位
科技部
計畫名稱
108 創新電漿活化水製備表面增強拉曼散射活性基材(1/3)
補助單位
科技部
計畫名稱
108 生化學科劉豫川教授申請補助延攬科技人才楊織萍女士參與「電漿活化水在綠色化學與神經醫學上的創新應用」研究計畫案,業經核定以「博士後研究」資格補助(MOST 108-2811-E-038-501)
補助單位
計畫名稱
108 生化學科劉豫川教授申請補助延攬科技人才游世豪君參與「創新電漿活化水製備表面增強拉曼散射活性基材」研究計畫案,業經核定以「博士級研究人員」資格補助(MOST 108-2811-E-038-505)
補助單位
計畫名稱
108 產學合作計畫-開發農藥快篩之表面增強拉曼光譜之資料庫
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科技部
計畫名稱
108 產學合作計畫-開發農藥快篩之表面增強拉曼光譜之資料庫
補助單位
品佳科技有限公司
計畫名稱
107 表面增強拉曼光譜技術建立作物農藥殘留快篩體系(第二年)
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
107 電漿活化水在綠色化學與神經醫學上的創新應用(1/3)
補助單位
科技部
計畫名稱
107 生化學科隨專題研究計畫申請補助延攬科技人才楊織萍女士參與「電漿活化水在綠色化學與神經醫學上的創新應用」研究計畫案,業經核定以「博士後研究」補助
補助單位
科技部
計畫名稱
106 表面增強拉曼光譜技術建立作物農藥殘留快篩體系
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
106 創新電漿制動具弱氫鍵活化液態水的製備機制與應用(3/3)
補助單位
科技部
計畫名稱
106 生化學科申請補助延攬科技人才楊織萍女士參與「創新電漿制動具弱氫鍵活化液態水的製備機制與應用」研究計畫案,業經核定以「博士後研究」補助
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科技部
計畫名稱
105 貴校生化學科陳效謙博士後研究擬於106年3月赴南韓首爾參加The International Symposium on Advanced Material Research (ISAMR 2017)
補助單位
科技部
計畫名稱
105 (補助科學與技術人員國外短期研究)電漿活化水於綠色能源上的創新應用
補助單位
科技部
計畫名稱
105 電漿制動活化水於農業上之創新應用
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
105 創新電漿制動具弱氫鍵活化液態水的製備機制與應用(2/3)
補助單位
科技部
計畫名稱
105 創新電漿制動具弱氫鍵活化液態水的製備機制與應用(2/3)
補助單位
計畫名稱
105 創新電漿制動具弱氫鍵活化液態水的製備機制與應用-陳効謙
補助單位
科技部
計畫名稱
104 生化學科陳効謙博士後研究員擬於105年5月赴日本東京參加ICCMME 2016 : 18th International Conference on Composite Materials and Materials Engineering
補助單位
計畫名稱
104 奈米金烘焙茶葉優質化之研發
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
104 電漿制動活化水於農業上之創新應用
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
104 創新電漿制動具弱氫鍵活化液態水的製備機制與應用(1/3)
補助單位
科技部
計畫名稱
104 創新電漿制動具弱氫鍵活化液態水的製備機制與應用(1/3)
補助單位
科技部
計畫名稱
104 創新電漿制動具弱氫鍵活化液態水的製備機制與應用
補助單位
科技部
計畫名稱
103 弱氫鍵水應用於表面增強拉曼光譜之增進生化檢測
補助單位
臺北醫學大學附設醫院
計畫名稱
103 電漿活化水之穩定製造與其在透析上之應用
補助單位
台北市立萬芳醫院委託財團法人私立臺北醫學大學辦理
計畫名稱
103 奈米金烘焙茶葉優質化之研發
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
103 高可靠度表面增強拉曼散射感測器
補助單位
科技部
計畫名稱
103 高可靠度表面增強拉曼散射感測器-陳效謙
補助單位
科技部
計畫名稱
103 參加3RD INTERNATIONAL SCIENTIFIC CONFERENCE OF APPLIED SCIENCES AND ENGINEERING 申請補助
補助單位
科技部
計畫名稱
103 赴印尼巴里島參加2015年第二屆國際機械、城市與材料工程研討會104.05.21-104.05.23
補助單位
科技部
計畫名稱
103 奈米金烘培茶葉優質化之研發
補助單位
財團法人中正農業科技社會公益基金會
計畫名稱
102 以表面增強拉曼光譜檢測關節炎微量晶體
補助單位
臺北醫學大學附設醫院
計畫名稱
102 小分子團水在血液透析上之創新應用
補助單位
台北市立萬芳醫院委託財團法人私立臺北醫學大學辦理
計畫名稱
102 發展表面增強拉曼光譜技術應用於生物分子檢測(3/3)
補助單位
行政院國家科學委員會
計畫名稱
102 發展表面增強拉曼光譜技術應用於生物分子檢測(3/3)
補助單位
科技部
計畫名稱
102 發展表面增強拉曼光譜技術應用於生物分子檢測-陳交力謙(博)
補助單位
科技部
計畫名稱
102 奈米貴金屬用於提升茶中總多酚含量之機制研究
補助單位
臺北科技大學
計畫名稱
101 高純度具表面增強拉曼活性奈米貴金屬顆粒之製備與其生醫檢測策略
補助單位
臺北醫學大學附設醫院
計畫名稱
101 發展表面增強拉曼光譜技術應用於生物分子檢測
補助單位
行政院國家科學委員會
計畫名稱
101 修飾奈米光觸媒在表面增強拉曼散射上之應用
補助單位
臺灣科技大學
計畫名稱
100 核殼式奈米複合物用於去除酒中毒化物之機制研究
補助單位
臺北醫學大學附設醫院
計畫名稱
100 發展表面增強拉曼光譜技術應用於生物分子檢測
補助單位
行政院國家科學委員會
計畫名稱
100 高穩定度與靈敏度金與銀和氧化物奈米複合物表面增強拉曼光譜感測器之開發
補助單位
行政院國家科學委員會
計畫名稱
100 高穩定度與靈敏度金與銀和氧化物奈米複合物表面增強拉曼光譜感測器之開發
補助單位
台灣昆凌儀器設備有限公司
計畫名稱
100 奈米黃金陶瓷濾材用於熟成酒品之開發
補助單位
財團法人金屬工業研究發展中心
計畫名稱
100 儲存普洱茶陶瓷器皿之開發
補助單位
財團法人金屬工業研究發展中心
計畫名稱
99 以電化學法為基礎製備貴金屬與金屬氧化物半導體奈米複合物與其應用
補助單位
行政院國家科學委員會
計畫名稱
99 奈米金屬複合物應用於表面增強拉曼光譜
補助單位
學校
計畫名稱
98 用於液體樣品具表面增強拉曼散射活性之平面與曲面玻璃試片之開發
補助單位
立諾儀器有限公司