faculty

專任教師

Wu, Tzu-Ho

吳子和 副教授 / 工程科技菁英班 班主任

  • 職稱副教授兼工程科技菁英班班主任
  • 學歷國立清華大學化工及英國利物浦大學化學博士
    國立清華大學化工學士
  • E-mailwutzu@yuntech.edu.tw
  • 專長領域電化學能源儲存、電化學臨場光譜分析、奈米材料設計
  • 研究室EC310
  • 校內分機4628
  • 實驗室名稱電化學能源實驗室
  • 分機4693
  • 教授課程高等輸送現象、工程數學、微積分

主要研究領域:

  • 奈米合成技術製備尖端電化學儲能材料
  • 過渡金屬氧化物的臨場拉曼光譜分析
  • 可充式鋅離子電池的開發

 

期刊論文:

l   Wu, T.H.*, Huang, C.C.; Cheng, S.L.; Lin, C.C.*, “Expanded spinel ZnxMn2O4 induced by electrochemical activation of glucose − mediated manganese oxide for stable cycle performance in zinc−ion batteries”, J. Colloid Interface Sci., 617 (2022), 274-283.
 
l  Wu, T.H.*, Liang, W.Y., Lin, Y.Q., “Facile Synthesis of Cu−intercalated MnO2 Nanoflakes Cathode for Enhanced Energy Storage in Zinc−Ion Batteries”, J. Taiwan Inst. Chem. Eng., 131 (2022), 104172.
 
l  Wu, T.H.*, Li, Y.M.; Ni, K.Y.; Li, T.K.; Lin, W.S., “Vanadium Oxides Obtained by Chimie Douce Reactions: The Influences of Transition Metal Species on Crystal Structures and Electrochemical Behaviors in Zinc−Ion Batteries”, J. Colloid Interface Sci., 608 (2022), 3121-3129.
 
l Wu, T.H., Lin, Y.Q.,Althouse, Z.; Liu, N.*, “Dissolution–Redeposition Mechanism of MnO2 Cathode in Aqueous Zinc–Ion Batteries”, ACS Appl. Energy Mater., 4 (2021), 12267–12274.
 
l Wu, T.H.*, Lin, W.S., “Enhanced Reversibility of Vanadium Oxide Cathode by Diminished Surface Precipitation in Zn(TFSI)2 Aqueous Electrolyte”, Electrochim. Acta, 399 (2021), 139432.
 
l  Wu, T.H.*, Lin, W.S., “Boosting Proton Storage in Layered Vanadium Oxides for Aqueous Zinc−Ion Batteries”, Electrochim. Acta, 394 (2021), 139134.
 
l   Wu, T.H.*, Chen, J.A., Lin, W.S., Liang, W.Y., “La0.14V2O5/Reduced Graphene Oxide Composite for Aqueous Zinc−Ion Batteries with Long Cycle Life”, J. Electrochem. Soc., 168 (2021), 080527.
 
l  Wu, T.H.*, Liang, W.Y., “Reduced Intercalation Energy Barrier by Rich Structural Water in Spinel ZnMn2O4 for High−Rate Zinc−Ion Batteries”, ACS Appl. Mater. Interfaces, 13 (2021), 23822-23832. 
 
l  Wu, T.H.*, Hou, B.W., “Superior Catalytic Activity of α−Ni(OH)2 for Urea Electrolysis”, Catal. Sci. Technol., 11 (2021), 4294-4300. 
 
l Kuo, M., Cheng, T.C., Ye, H.K., Wang, T.L., Wu, T.H., Kuo, C.C., Lee, R.H.*, “Polyaniline/Ag2S–CdS Nanocomposites as Efficient Electrocatalysts for Triiodide Reduction in Dye-Sensitized Solar Cells”, Catalysts, 11 (2021), 507. 
 
l  Wu, T.H.*, Lin, Y.C., Hou, B.W., Liang, W.Y., “Nanostructured β−NiS Catalyst for Enhanced and Stable Electro−oxidation of Urea”, Catalysts, 10 (2020), 1280. 
 
l   Wu, T.H., Scivetti, I.*, Chen, J.C., Wang, J.A., Teobaldi, G., Hu, C.C.*, Hardwick, L.J.*, “Quantitative Resolution of Complex Stoichiometric Changes during Electrochemical Cycling by Density Functional Theory-Assisted Electrochemical Quartz Crystal Microbalance”, ACS Appl. Energy Mater., 3 (2020), 3347-3357. 

 

研討會發表:

l Wu, T.H., Liang, W.Y., “Promoting Zinc Intercalation by Rich Lattice Water in Spinel ZnMn2O4 for High−Performance Zinc−Ion Batteries”, 30th Topical Meeting of the International Society of Electrochemistry, Nov 22~24 (2021), Online Conference.
 
l  Wu, T.H., Lin, W.S., Liang, W.Y., “Towards high−energy, low cost and safe aqueous rechargeable Zn−ion batteries”, 第四屆臺灣碳材料學術研討會, Nov 2~3 (2020),中壢, 中原大學
 
l   Wu, T.H., Scivetti I., Chen, J.C., Wang, J.A., Teobaldi, G., Hu, C.C., Hardwick, L.J., “Quantitative Resolution of Complex Stoichiometric Changes in NiOOH/Ni(OH)2 Redox Reactions”, The 2020 International Conference on Green Electrochemical Technologies and the 2020 Annual Meeting of Electrochemical Society of Taiwan, Nov 26~28 (2020), 台中, 東海大學
 
l  Wu, T.H., Lin, W.S., Liang, W.Y., “Layered Lanthanum Vanadate Cathode for High−Rate Aqueous Rechargeable Zinc−Ion Batteries”, 2020TwIChE台灣化學工程學會67週年年會暨科技部化學工程學門成果發表會, Oct 23~24 (2020), 新竹, 清華大學