王忠茂
姓名 王忠茂
電子郵件
實驗室電話 (02)77496169, 77496171
職稱 教授
研究領域 電分析化學
學術專長 研究興趣
  • 光電化學應用研究
  • 生化感測
實驗室 電化學分析研究室

學術著作

    1.   Photomagnetic Carbon Nanotubes at Ambient Conditions, Wei Shen Lin, Yueh-Hua Han, Ting-Yu Chang, Chong Mou Wang, Cheng-Hsun-Tony Chang, and Jyh-Shen Tsay, J. Phys. Chem. C2015,119, pp 20673–20680. 附件檔案附件檔案 Adobe PDF
    2.   附件檔案附件檔案 Adobe PDF
    3.  Phenothiazine-Modified Electrodes: A Useful Platform for Protein Adsorption Study, Bo-Hao Chiou, Yi-Ting Tsai, and Chong Mou Wang, Langmuir 2014, 30, 1550−1556. 附件檔案附件檔案 Adobe PDF
    4. Surface-Confined Pyrroloquinoline Quinone: Characterizations and Interactions with Copper Ions, Chong Mou Wang, Shung-Yue Chung, Hsi-Jung Jao, and Wei-Hsiu Hung, J. Phys. Chem. C 2011,115, 1978–1984 附件檔案附件檔案 Adobe PDF
    5. Phenothiazine: An Effective Molecular Adhesive for Protein Immobilization, J. Phys. Chem. C, 2010, 114, 3560. 附件檔案附件檔案 Adobe PDF
    6. ALO-Patternable Artificial Flavin: Phenazine, Phenothiazine and Phenoxazine, Shiao-Wenn Wu, Hsiang Ying Huang, Yung Chin Guo, and Chong Mou Wang, J. Phys. Chem. C, 2008, 112, 9370-9376
      附件檔案附件檔案 Adobe PDF
    7. Yu Jiuan Cheng, Wei Ching Liao and Chong Mou Wang, "Proton-assisted iron(III) recognition with 4,4’-(4,5-diaminonaphthalen-1,8-yldiazo)-bisbenzenesulfonate" J. Electroanal. Chem.2008612, 15-21. 附件檔案附件檔案 Adobe PDF
    8. Yun Chiou Lin and Chong Mou Wang, “Photodebromination of dibromobutane: Possibility and evidence” J. Electroanal. Chem.2007, 601, 237-241.
    9. Hsi-Jung Jao, Pei-Yi Tsai and Chong Mou Wang, “Unexplored interactions between pyrroloquinoline quinone and β-nicotinamide adenine dinucleotide” J. Electroanal. Chem.2007, 606, 141-149.
    10. Yu-Ling Chung, Ruey-Ding Hong, Hsiao Wen Wu, Wei-Hsiu Hung, Lee-Jene Lai and Chong Mou Wang, “Fluorescence enhancement for alkaloids by anions: Spectroscopic and electrochemical characterizations” J. Electroanal. Chem.2007, 610, 85-89.
    11. Shang Yu Yeh and Chong Mou Wang, “Anthraquinone-modified electrodes, preparations and characterizations” J. Electroanal. Chem.2006, 592, 131-138
    12. Glucose sensing based on an effective conversion of O2 and H2O2 into superoxide anion radical with clay minerals, Tsailing Chih, Hsi-Jung Jao and Chong Mou Wang, J. Electroanal. Chem.2005581, 159. 附件檔案附件檔案 Adobe PDF
    13. F.-T. Huang, H.-J. Jao, W.-H. Hung, K. Chen, C. M. Wang, “Photoinduced Aziridination Reaction Sensitized by PbOx-Modified Zeolite” J. Phys. Chem. B2004108, 20458-20464.
    14. Yu Chen Chang, Pei Wen Chang and Chong Mou Wang, “Energetic Probing for The Electron Transfer Reactions Sensitized by 9,10-Dicyanoanthracene And 9-Cyanoanthracene And Their Modified Zeolite Particles” J. Phys. Chem. B , 2003, 107, 1628.
    15. Tsailing Chih and Chong Mou Wang, “Evidence and Applications for Electron Transfer between Vitamin K3 And Oxygen.” J. Electroanal. Chem. , 2003, 543, 135.
    16. Ping Yi Liang, Pei Wen Chang and Chong Mou Wang, “Can Clay Emit Light? Ru(bpy)32+ Modified Clay Colloids And Their Application in The Detection of Glucose”, J. Electroanal. Chem.2003, 560, 151.
    17. Wan Ting Chuang, Ching Hao Wang, and Chong Mou Wang, “Is metal center important? Comparison for the Electrochemistry between Poly-phen-NH2 And Poly[Fe(phen-NH2)32+] Modified Electrodes”, J. Electroanal. Chem.2002, 521, 175.
    18. Shen Ming Chen, and Chong Mou Wang, ”Polymeric-3-Aminophthalhydrazide and its Applications as a Glucose Optrode,” The Analyst2002, 127, 1507.
    19. Yea-Wenn Liou and Chong Mou Wang , “Poly [Fe(phen-NH2)3]2+ Modified Electrodes: Proton- Gated Charge Transfer Reactions and Applications in Current Rectification”, J. Electroanal. Chem.2001, 495,126.
    20. Yea-Wenn Liou and Chong Mou Wang, “Reusable Photographic Films Based on Iron-Containing Clay Minerals”, J. Chem. Soc. Chem. Commun. 2000, 27.
    21. Chiang-Fu Cheng and Chong Mou Wang, “Electrochemical Characterization for The Glucose Enzyme Electrodes Based on The Ruthenium Purple-Containing Zeolite Particles”, J. Electroanal. Chem.1999, 466, 82
年度 論文名稱
2017 Room-Temperature Carbon Nanotube Circuit Soldering by Thionin-Based Dip-pen Nanolithography, ECS J. Solid State Sci. Technol, vol. 6, Oct. 2017
2017 Fabrication of Photomagnetic Carbon Surfaces via Redox Assembly, Journal of Nanotechnology, vol. 2017 (2017), Jan. 2017
2015 Photomagnetic Carbon Nanotubes at Ambient Conditions, J. Phys. Chem. C, vol. 119, Feb. 2015
2014 Phenothiazine-Modified Electrodes: A Useful Platform for Protein Adsorption Study, Langmuir, vol. 30, Feb. 2014
2012 A simple, effective NADH sensor constructed with phenothiazine via AFM tip-induced oxidative polymerization, Journal of Electroanalytical chemistry, vol. 677-680, Jun. 2012
2012 Unexpected potential of fluoroquinolones in photooxidative polymerization, J. Electroanal. Chem., vol. 677-680, Jun. 2012
2012 Surface differentiation of ferritin and apoferritin with atomic force microscopic techniques, Colloids and Surfaces B: Biointerfaces, vol. 94, Mar. 2012
2011 Surface-Confined Pyrroloquinoline Quinone: Characterizations and Interactions with Copper Ions, J. Phys. Chem. C, vol. 115, Jan. 2011
2010 Phenothiazine: An Effective Molecular Adhesive for Protein Immobilization, J. Phys. Chem. C, vol. 114, Jan. 2010
2008 ALO-Patternable Artificial Flavin: Phenazine, Phenothiazine and Phenoxazine, J. Phys. Chem. C, vol. 112, Jan. 2008
2008 Proton-assisted iron(III) recognition with 4,4’-(4,5-diaminonaphthalen-1,8-yldiazo)-bisbenzenesulfonate, J. Electroanal. Chem., vol. 612, Jan. 2008
2007 Fluorescence enhancement for alkaloids by anions: spectroscopic and electrochemical characterizations, J. Electroanal. Chem., vol. 610, Jul. 2007
2007 Unexplored interactions between pyrroloquinoline quinone and -nicotinamide adenine dinucleotide, J. Electroanal. Chem., vol. 606, Jun. 2007
2007 Photodebromination of dibromobutane: possibility and evidence, J. Electroanal. Chem., vol. 601, Jan. 2007
2006 Anthraquinone-modified electrodes, preparations and characterizations, J. Electroanal. Chem., vol. 592, Jun. 2006
年度 計畫名稱 職稱/擔任之工作 計畫期間 補助/委託或合作機構
2016 蛋白質場效應原子力顯像分析與蛋白質定量分析 主持人 2015.08 ~ 2016.07 國科會
2015 蛋白質場效應原子力顯像分析與蛋白質定量分析 主持人 2014.08 ~ 2015.07 國科會
2014 蛋白質場效應原子力顯像分析與蛋白質定量分析 主持人 2013.08 ~ 2014.07 國科會
2013 原子力場效應應用研究:蛋白質固定、磁性與敏光性表面設計分析 主持人 2012.08 ~ 2013.07 國科會
2012 原子力場效應應用研究:蛋白質固定、磁性與敏光性表面設計分析 主持人 2011.08 ~ 2012.07 國科會
2011 大學考試中心題庫發展研究計畫-題庫命題工作計畫化學科(100-II) 主持人 2011.01 ~ 2011.12 教育部
2011 原子力場效應應用研究:蛋白質固定、磁性與敏光性表面設計分析 主持人 2010.08 ~ 2011.07 國科會
2010 具生化活性修飾電極製備與應用 主持人 2009.08 ~ 2010.07 國科會
2009 具生化活性修飾電極製備與應用 主持人 2008.08 ~ 2009.07 國科會
2008 碳六十衍生物及奈米材料應用於化學感測器研究 主持人 2007.08 ~ 2008.07 國科會
2008 具生化活性修飾電極製備與應用 主持人 2007.08 ~ 2008.07 國科會
2007 碳六十衍生物及奈米材料應用於化學感測器研究 主持人 2006.08 ~ 2007.07 國科會
2007 儲鐵蛋白人工模擬、電化學微影像分析與人工氟離子管道設計 主持人 2006.08 ~ 2007.07 國科會
國家 學校名稱 系所 學位 期間
美國 德州大學奧斯汀分校 化學系 博士 ~ 1990.06
臺灣 國立清華大學 化學系 碩士 1980.09 ~ 1983.06
臺灣 國立清華大學 化學系 理學士 1976.09 ~ 1980.06
服務機關名稱 單位 職務 期間
國立台灣師範大學 化學系 教授 2012.08 ~ 2013.07
國立臺灣師範大學 化學系 教授 1996.08 ~ 迄今
國立臺灣師範大學 化學系 副教授 1992.08 ~ 1996.07
東吳大學 化學系 副教授 1991.08 ~ 1992.07
美國德州大學奧斯汀分校 化工系 博士後研究員 1991.01 ~ 1991.01