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Education
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Doctor of Philosophy, University of Oxford, UK.
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Experience
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Postdoc Researcher, Institute of Atomic and Molecular Sciences, Academia Sinica, Taiwan.
(2008/1-2009/7)
Postdoc Researcher, Research Center for Applied Sciences, Academia Sinica, Taiwan.(2009/8-2010/7)
Assistant Professor, Tunghai University, Taiwan. (2010/9-2014/7)
Associate Professor, Tunghai University, Taiwan.
(2014/8 – 2018/7)
Professor, Tunghai University, Taiwan.
(2018/8-present)
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Research Interest
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Graphene based composites; 2D nanomaterials; Electrocatalytic and/or photocatalytic water splitting; Supercapacitors; Lithium ion battery.
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Selected Publications
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1. Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. T. Lin, K. D. Chang, Y. C. Yu, T. W. Wang, C. S. Chang, L. J. Li*, and T. W. Lin*,“Synthesis of large-area MoS2 atomic layers with chemical vapor deposition”, 2012, Advanced Materials, 24, 2320-2325, 5-year IF=21.888.
2. T. W. Lin,* C. Y. Su, X. Q. Zhang, W. Zhang, Y. .H. Lee, C. W. Chu, H. Y. Lin, M. T. Chang, F. R. Chen, and L. J. Li*,“Converting graphene oxide monolayers into boron carbonitride nanosheets (BCN) by substitutional doping”, 2012, Small, 8, 1384-1391, 5-year IF=9.061.
3. T. W. Lin,* C. J. Liu, J. Y. Lin, “Facile synthesis of MoS3/carbon nanotube nanocomposite with high catalytic activity toward hydrogen evolution reaction”, 2013, Applied Catalysis B: Environmental, 134-135, 75-82, 5-year IF= 10.212.
4. C. S. Dai, P. Y. Chien, J. Y. Lin, S. W. Chou, W. K. Wu, P. H. Li, K. Y. Wu, T. W. Lin,*“Hierarchically Structured Ni3S2/Carbon Nanotube Composites as High Performance Cathode Materials for Asymmetric Supercapacitors”, 2013, ACS Applied Materials & Interfaces, 5, 12168–12174, 5-year IF= 8.284.
5. T. W. Lin,* C. J. Liu,C. S. Dai, “Ni3S2/carbon nanotube nanocomposite as electrode material for hydrogen evolution reaction in alkaline electrolyte and enzyme-free glucose detection”, 2014, Applied Catalysis B: Environmental, 154-155, 213-220, 5-year IF= 10.212.
6. M. N. Lu, C. S. Dai, S. Y. Tai, T. W. Lin,* J. Y. Lin,* “Hierarchical nickel sulfide/carbon nanotube nanocomposite as a catalytic material toward triiodine reduction in dye-sensitized solar cells.”, 2014, Journal of Power Sources, 270, 499-505, 5-year IF= 6.686.
7. T. W. Lin,*C. S. Dai, T. T. Tasi, S. W. Chou, J. Y. Lin, H. H. Shen, “High-performance asymmetric supercapacitor based on Co9S8/3D graphene composite and graphene hydrogel”, 2015, Chemical Engineering Journal, 279, 241-249, 5-year IF=6.496.
8. T. W. Lin,* T. T. Tasi, P. L. Chang, H. Y. Cheng, “Reversible association of nitro compounds with p-nitrothiophenol modified on Ag Nanoparticles/graphene oxide nanocomposites through plasmon mediated photochemical reaction”, 2016, ACS Applied Materials & Interfaces, 8, 8315-8322, 5-year IF= 8.284.
9. M. C. Hsiao, C. Y. Chang, L. J. Niu, F. Bai, L. J. Li, H. H. Shen, J. Y. Lin,* T. W. Lin,* “Ultrathin 1T-phase MoS2 nanosheets decorated hollow carbon microspheres as highly efficient catalysts for solar energy harvesting and storage”, 2017, Journal of Power Sources, 345, 156-164, 5-year IF= 6.68.
10.A. Y. Wang, M. Chaudhary, T. W. Lin,* “Enhancing the stability and capacitance of vanadium oxide nanoribbons/3D-graphene binder-free electrode by using VOSO4 as redox-active electrolyte”,2019, Chemical Engineering Journal, 355, 830-839,5-year IF=6.496.
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