瀏覽人次: 13508610
基本資料   
張裕煦 教授
YU-HSU CHANG
聯絡資料 實驗室連結: 電子信箱: yhchang@ntut.edu.tw
聯絡電話:02-27712171 #2769
現職 臺北科大/資源工程研究所
授課資訊 連結
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主要學歷   
就學期間 國別 主修學門系所 畢/肄業學校 學位
1998-08-01 ~ 2002-09-10 台灣 應用化學研究所 國立交通大學 博士
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精通專長   
  • 沾筆式奈米微影術 (Dip Pen Nanolithography)
  • 奈米材料合成
  • 材料化學與合成
  • 無機化學
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相關經歷   
服務期間 服務機關 服務部門 職稱
2004-10-20 ~ 2005-10-20 Northwestern University Department of Chemistry 博士後研究員
2003-01-01 ~ 2006-01-31 國立交通大學 應用化學所 博士後研究員
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期刊論文   
  • "Insights into Electrocatalytic Oxygen Evolution over Hierarchical FeCo2S4 Nanospheres", ACS Sustainable Chemistry & Engineering, 431, SCI, 2022/02/01
  • "Ultrasensitive SERS Substrates Based on Au Nanoparticles Photo-Decorated on Cu2O Microspheres for the Detection of Rhodamine B and Methylene Blue", Applied Surface Science, 152696, SCI, 2022/02/01
  • "A Photochemical Approach to Anchor Au NPs on MXene as a Prominent SERS Substrate for Ultrasensitive Detection of Chlorpromazine", Microchimica Acta, 16, SCI, 2022/01/01
  • "Photochemical synthesis of Au nanostars on PMMA films by ethanol action as flexible SERS substrates for in-situ detection of antibiotics on curved surfaces", Chemical Engineering Journal, 134240, SCI, 2022/01/01
  • "Synthesis of Ag/Au/AgCl Heterostructure from Ag Nanowires as a Reusable SERS Substrate for Ultrasensitive Detection of Analgesics and Antibiotics", Chemical Engineering Journal, 130191, SCI, 2021/11/01
  • "Development of SERS Platform Based on ZnO Multipods Decorated with Ag Nanospheres for Detection of 4-Nitrophenol and Rhodamine 6G in Real Samples", Microchemical Journal, 106660, SCI, 2021/07/01
  • "A Disposable Electrochemical Sensor Based on Iron Molybdate for the Analysis of Dopamine in Biological Samples", New Journal of Chemistry, 11644, SCI, 2021/05/01
  • "Ultrasensitive and Reusable SERS Probe for the Detection of Synthetic Dyes in Food Industry through Hybrid Flower-Shaped ZnO@Ag Nanostructures", Journal of Alloys and Compounds, 157952, SCI, 2021/04/01
  • "Significant Increases in the Dielectric Properties of Zn2+-Modified Porous Clay and Bacterial Cellulose Composite Sheets", Journal of Materials Science: Materials in Electronics, 10600, SCI, 2021/03/01
  • "New Solution Route for the Synthesis of CuFeO2 and Mg-Doped CuFeO2 as Catalysts for Dye Degradation and CO2 Conversion", Journal of Alloys and Compounds, 157235, SCI, 2021/02/01
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研討會論文   
  • "Synthesis of Zn Doped FeCo2O4 Grown on Carbon nanotubes and Ni Foam Spinel Nanoplates as Efficient Electrocatalysts for Oxygen Evolution Reaction in Water Splitting", 2021 MRS-T International Conference, 台北市, 2021/11/13
  • "Zn doped FeCo2S4 Grown on Ni Foam and Carbon nanotubes for Efficient Oxygen Evolution Reaction via Electrochemical Catalysis", 2021 MRS-T International Conference, 台北市, 2021/11/13
  • "A new chemical route for the synthesis of CuO nanoparticles for electrochemical carbon dioxide conversion (CO2RR)", 2021 MRS-T International Conference, 台北市, 2021/11/13
  • "合成 Zn 摻雜之 FeCo2O4/carbon nanotubes 以利於電化學分解水析氧反應", 中國冶工程學會110年會暨中鋼50鋼鐵論壇, 高雄, 2021/10/21
  • "Zn doped FeCo2S4 Grown on Ni Foam and Carbon N anotubes for Efficient Oxygen Evolution Reaction via Electrochemical Catalysis", 中國冶工程學會110年會暨中鋼50鋼鐵論壇, 高雄, 2021/10/21
  • "A new chemical route for the synthesis of CuO nanoparticles for electrochemical carbon dioxide conversion", 中國冶工程學會110年會暨中鋼50鋼鐵論壇, 高雄, 2021/10/21
  • "A new chemical route for the synthesis of CuO nanoparticles for carbon dioxide conversion", 2021 化學年會, 桃園市, 2021/03/12
  • "Synthesis of Zn Doped FeCo2O4 and FeCo2S4 Spinel Nanoplates as Efficient Electrocatalysts for Oxygen Evolution Reaction in Water Splitting", 2021 化學年會, 桃園市, 2021/03/12
  • "合成一維鈀金雙金屬奈米螺旋與催化特性之研究", 109年中國材料科學學會年會, 新北市, 2020/11/06
  • "新穎化學液相法合成奈米氧化銅顆粒及其應用", 109年中國材料科學學會年會, 新北市, 2020/11/06
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