| Name | Hsiu-Fen Lin |
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| Job Title | Associate Professor |
| Tel | +886-5-6315475 |
| Expertise | Nanostructured Energy Materials, Functional Eco-friendly Materials |
Major Education
Department of Materials Science and Engineering, National Tsing Hua University
Areas of Expertise and Research Fields
Nanostructured Energy Materials, Functional Environmental Materials
Relevant Experience
Researcher, Materials and Chemical Research Laboratories, Industrial Technology Research Institute (2009/12~2016/01)
Associate Researcher, Materials and Chemical Research Laboratories, Industrial Technology Research Institute (2002/07~2009/11)
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Funding or Commissioning Agency
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Project Duration
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Project Title (Project Number)
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2002/03 ~2004/06
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Development of Hydrogen Storage Materials and Systems for Fuel Cells
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| 2003/01~2003/12 | Spray Plasma Pyrolysis Technology for Manufacturing Nanostructured Materials | |
| 2004/01 2005/12 | Production of Nano Oxide Powders by DC Plasma Thermal Reaction | |
| 2005/01~2006/03 | Manufacturing Technology of Multifunctional Nano Composite Oxide Powders | |
| 2005/07~2006/12 | Development Project of UV-resistant Hydrophobic Self-cleaning Nano Coatings | |
| 2006/12~2007/06 | Pilot-scale Production Technology of Nano Powders for Superhydrophobic Self-cleaning Applications | |
| 2007/01 2007/12 | Corning Collaborative Project (Photocatalysis) | |
| 2007/01~2007/12 | High-power Material Structure Design | |
| 2008/01~2008/12 | Three-minute Fast-charging Lithium Battery | |
| 2009/01~2009/12 | High-energy High-voltage Composite Lithium Battery Cathode Material Technology | |
| 2010/01~2012/12 | Commissioned Development of Nanostructured Cathode Materials for High-energy Power Lithium Batteries | |
| 2011/01~2011/12 | High-power Material Structure Design | |
| 2011/01~2011/12 | Power Lithium Battery Material Development | |
| 2012/01~2012/12 | Nanostructure Design and Fabrication of Ion-conducting Precursors | |
| 2013/01~2013/12 | High-temperature Resistant and High-safety Lithium Battery Electrode Material Technology | |
| 2013/01~2013/12 | Power Lithium Battery Material Development | |
| 2014/01~2015/12 | High-energy Battery Materials | |
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2015/01~2015/12
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Failure Detection Platform for High-voltage Energy Storage Materials
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1
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Hsiu-Fen Lin, Shih-Chieh Liao, Sung-Wei Hung, The dc thermal plasma synthesis of ZnO nanoparticles for visible-light photocatalyst, Journal of Photochemistry and Photobiology A: Chemistry 174 (2005) 82–87.
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2
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T.S. Ko , S. Yang, H.C. Hsu, C.P. Chu, H.F. Lin, S.C. Liao,T.C. Lu, H.C. Kuo, W.F. Hsieh, S.C. Wang, ZnO nanopowders fabricated by dc thermal plasma synthesis, Materials Science and Engineering B 134 (2006) 54–58
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3
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Shih-Chieh Liao, Hsiu-Fen Lin , Sung-Wei Hung, Chen-Ti Hu, dc thermal plasma synthesis and properties of zinc oxide nanorods, J. Vac. Sci. Technol. B 24(3) (2006) 1322-1326.
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4
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Hsiu-Fen Lin, Shih-Chieh Liao , Chen-Ti Hu, A new approach to synthesize ZnO tetrapod-like nanoparticles with DC thermal plasma technique, Journal of Crystal Growth 311 (2008) 1378–1384.
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5
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Wei-Hao Chiu, Chia-Hua Lee, Hsin-Ming Cheng, Hsiu-Fen Lin, Shih-Chieh Liao , Jenn-Ming Wu and Wen-Feng Hsieh, Efficient electron transport in tetrapod-like ZnO metal-free dye-sensitized solar cells, Energy Environ. Sci., 2 (2009) 694–698
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6
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Hsiu-Fen Lin, Shih-Chieh Liao, Sung-Wei Hung, Chen-Ti Hu, Thermal plasma synthesis and optical properties of Zn2SnO4 nanopowders, Materials Chemistry and Physics 117 (2009) 9–13.
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7
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Chia-Hu Lee, Wei-HaoChiu, Kun-MuLee, Wen-HsiangYen, Hsiu-Fen Lin, Wen-Feng Hsieh, Jenn-MingWud, The influence of tetrapod-like ZnO morphology and electrolytes on energy conversion efficiency of dye-sensitized solar cells, Electrochimica Acta., 55 (2010) 8422-8429 .
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8
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廖世傑 ,林秀芬 ,洪松慰,董志偉, 奈米粉體製造與應用 「工業材料 」,pp.129-137,(2003)
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9
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廖世傑 ,林秀芬 ,張家豪,洪松慰, 奈米可見光光觸媒 「工業材料 」,pp.105-113,(2005)
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10
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黃裕豪 ,林秀芬 ,廖世傑 , 熱阻隔層應用於鋰電池之效能, 「工業材料 」, pp.74~81, (2013)
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11
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林秀芬 ,廖世傑 ,鄭季汝 ,郭浩中, 鋰電池高容量複合正極材料 「粉末冶金會刊」, pp.34-42,(2013)
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12
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林秀芬 ,廖世傑 , 高容量複合正極材料 「工業材料 」,pp.60-65,(2013)
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13
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林秀芬 ,廖世傑 , 高容量鎳系氧化物及複合正極材料之研究發展 「工業材料 」,pp.39-51,(2014)
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14
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林秀芬 , 從AABC 2014看電動車電池的發展現況 「材料世界網」,pp.1-8,(2014) |
| 15 | 林秀芬 ,呂承璋 ,鄭敬哲 ,劉佳兒 ,廖世傑 , 高容量鋰電池電極粉體材料 「粉體及粉末冶金會刊」,pp.47-62,(2014) |
| 16 | 林秀芬 ,廖世傑 , 高容量鋰離子電池複合正極材料 「粉體及粉末冶金會刊」,pp.188-197,(2014) |
| 17 | 林秀芬 、劉佳兒、廖世傑, 高容量鎳基鋰電池正極材料發展近況「工業材料」, pp.51-58,(2015) |
| 18 | 林秀芬 、柯冠宇、廖世傑、陳金銘無機固態電池技術「工業材料」, pp.69-75,(2016) |
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1
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富鋰正極材料, Asian Conference on Electrochemical Power Sources <中國>
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2
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0.6Li[Li1/3Mn2/3]O2 – 0.4 Li[Ni2/5Co1/5Mn2/5]O2高容量正極材料之改質, Advanced Automotive Battery Conference <日本>
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3
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新世代高容量鋰離子電池材料,「International Battery Association」,(2013) <西班牙>
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4
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鋰離子富鋰正極複合材料,International Conference on Powder Metallurgy is Asia」<中國>
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5
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富鋰高容量正極材料,Lithium Battery Discussion Electrode Materials <法國>
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6
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鋰離子正極材料,第三屆兩岸產業科技論壇
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7
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Terapod-like ZnO 用於染料敏化太陽電池 ,中華民國物理年會暨成果發表會
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8
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傑出電子擴散率之四針錐狀氧化鋅於無金屬染料敏化太陽電池 ,International Conference on the Industrialisation
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9
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四角針狀氧化鋅染料敏化太陽能電池 ,International Conference on the Industrialisation
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10
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多功能奈米塗料 ,奈米國家型科技計劃商機探討暨成果發表會
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11
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氧化鋅-銀奈米複合物光觸媒 ,環境保護與奈米科技學術研討會
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12
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以噴霧熱分解法製備氧化鋅摻雜鋁奈米結構粉體及其特性之探討,環境保護與奈米科技學術研討會 |
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13
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熱電漿法製作鋅錫氧化物粉體及其性質,環境保護與奈米科技學術研討會
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14
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直流電漿熱反應製造奈米粉體之暴露評估研究 ,第一屆環境保護與奈米科技學術研討會 |
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15
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奈米氧化鋅粉體製程之暴露評估研究 , |
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1
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Technical Report on the Development of Nanomaterials and Processing Technology for Heat-resistant Barrier Layers in Lithium Batteries |
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Technical Report on Nanostructure Design and Fabrication of Ion-conducting Precursors |
| 3 | Research Report on the Commissioned Development Project of Nanostructured Cathode Materials for High-energy Power Lithium Batteries |
| 4 | Technical Report on the Development of Flexible Photoelectrode Substrates for Dye-sensitized Solar Cells Using Tetrapod-shaped ZnO Nanopowders |
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Other Supplementary Personal Information
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1
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Superhydrophobic Self-cleaning Powder and Its Manufacturing Method (Patented)
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2
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Superhydrophobic Self-cleaning Powder and Its Manufacturing Method(Patented)
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3
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Superhydrophobic Self-cleaning Powder and Its Manufacturing Method (Patented)
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4
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Superhydrophobic Self-cleaning Powder and Its Manufacturing Method (Patented)
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5
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Nanometer-scale Zn-Sn-O Powder Materials with Infrared and Ultraviolet Shielding Capability and Their Manufacturing Method (Patented)
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6
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Nanostructured Oxide Powders Produced by DC Plasma Thermal Reaction (Patented)
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7
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Method for Producing Nanostructured Oxide Powders Using DC Plasma Thermal Reaction(Patented)
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8
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Visible-light Photocatalytic Zinc Oxide Nanopowders and Their Preparation Method(Patented)
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