• 工學博士 美國拉瑪大學 民國七十五年
• 化工碩士 國立臺灣大學 民國六十八年
• 化工學士 國立成功大學 民國六十六年
• 連續三次國科會傑出獎（85、87、89）

學術榮譽

課程代碼：E330310-2
課程名稱：物理化學(1)
學分：3
開課級別：大學部
開課年級：2

• 268.Kundan Sivashanmugan, Po-Chun Liu, Kai-Wei Tsai, Ying-Nien Chou, Chen-Hsueh Lin, Yung Chang, Ten-Chin Wen, "An anti-fouling nanoplasmonic SERS substrate for trapping and releasing a cationic fluorescent tag from human blood solution", Nanoscale, (2017, Jan) 9 (8), 2865-2874[Link]
• 267.Kai-Wei Tsai, Kundan Sivashanmugan, Chen-Hsueh Lin, Po-Ju Tsai, Shu-Chun Cheng, Yung-Chiang Lan, Tsan-Yao Chen, Ten-Chin Wen, "The size effect of silver nanocubes on gap-mode surface enhanced Raman scattering substrate", Journal of the Taiwan Institute of Chemical Engineers, (2016, Dec) 69, 146-150[Link]
• 266.Yi‐Kai Chih, Jian‐Chih Wang, Rei‐Ting Yang, Chi‐Ching Liu, Yun‐Chorng Chang, Yaw‐Shyan Fu, Wei‐Chi Lai, Peter Chen, Ten‐Chin Wen, Yu‐Ching Huang, Cheng‐Si Tsao, Tzung‐Fang Guo, "NiOx Electrode Interlayer and CH3NH2/CH3NH3PbBr3 Interface Treatment to Markedly Advance Hybrid Perovskite‐Based Light‐Emitting Diodes", Advanced Materials, (2016, Aug) 28 (39), 8687-8694[Link]
• 265.Ying-Nien Chou, Fang Sun, Hsiang-Chieh Hung, Priyesh Jain, Andrew Sinclair, Peng Zhang, Tao Bai, Yung Chang, Ten-Chin Wen, Qiuming Yu, Shaoyi Jiang, "Ultra-low fouling and high antibody loading zwitterionic hydrogel coatings for sensing and detection in complex media", Acta biomaterialia, (2016, Aug) 40, 31-37[Link]
• 264.Ying-Nien Chou, Ten-Chin Wen, Yung Chang, "Zwitterionic surface grafting of epoxylated sulfobetaine copolymers for the development of stealth biomaterial interfaces", Acta biomaterialia, (2016, Aug) 40, 78-91[Link]
• 263.Chen‐Hao Wu, Kai‐Wei Tsai, Wei‐Jhe Huang, Chen‐Yu Wu, Tsan‐Yao Chen, Tzung‐Fang Guo, Yao‐Jane Hsu, Ten‐Chin Wen, "Amide‐Functionalized Small Molecules as Solution‐Processed Electron Injection Layers in Highly Efficient Polymer Light‐Emitting Diodes", Advanced Materials Interfaces, (2016, Mar) 3 (6)[Link]
• 262.Kai-Wei Tsai, Chen-Hao Wu, Jiun-Yun Jan, Yao-Jane Hsu, Tzung-Fang Guo, Ten-Chin Wen, "Ternary electron injection layers for highly efficient polymer light emitting diodes", Journal of Materials Chemistry C, (2016, Jul) 4 (36), 8559-8564[Link]
• 261.Tsung-Yu Chiang, Gang-Lun Fan, Jun-Yuan Jeng, Kuo-Cheng Chen, Peter Chen, Ten-Chin Wen, Tzung-Fang Guo, Ken-Tsung Wong, "Functional p-type, polymerized organic electrode interlayer in CH3NH3PbI3 perovskite/fullerene planar heterojunction hybrid solar cells", ACS applied materials & interfaces, (2015, Oct) 7 (44), 24973-24981[Link]
• 260.Chen‐Hao Wu, Chu‐Chen Chueh, Yu‐Yin Xi, Hong‐Liang Zhong, Guang‐Peng Gao, Zhao‐Hui Wang, Lilo D Pozzo, Ten‐Chin Wen, Alex K‐Y Jen, "Influence of Molecular Geometry of Perylene Diimide Dimers and Polymers on Bulk Heterojunction Morphology Toward High‐Performance Nonfullerene Polymer Solar Cells", Advanced Functional Materials, (2015, Sep) 25 (33), 5326-5332[Link]
• 259.Ying-Nien Chou, Yung Chang, and Ten-Chin Wen, "Applying Thermosettable Zwitterionic Copolymers as General Fouling-Resistant and Thermal-Tolerant Biomaterial Interfaces", ACS Applied Materials & Interfaces, (2015, Apr) 7 (19), 10096–10107[Link]
• 258.Kai-Wei Tsai, Chu-Chen Chueh, Spencer T. Williams, Ten-Chin Wen and Alex K. Y. Jen, "High-performance hole-transporting layer-free conventional perovskite/fullerene heterojunction thin-film solar cells", Journal of Materials Chemistry A, (2015, Mar) 3, 9128–9132[Link]
• 257.Tzung-Da Tsai, Chung-Yu Huang, Hsuan-Ming Lin, Tzung-Fang Guo, and Ten-Chin Wen, "Switch the n-type to ambipolar transfer characteristics by illumination in n-type pentacene-based organic field-effect transistors" Organic Electronics, (2014, Dec) 15(12), 3805–3810[Link]
• 256.Wei-Shun Huang, Zhe-Rui Xu, Kuo-Cheng Chen, Tzung-Fang Guo, J.C.A. Huangb, and Ten-Chin Wen, "Modulations in line shapes of magnetoconductance curves for diodes of pentacene:fullerene charge transfer complexes", Organic Electronics, (2014, Nov) 15(11), 3076–3081 [Link]
• 255.Shu-Chun Cheng, Ten-Chin Wen* and Yung-Chiang Lan*, "Plasmonic cavities derived from silver nanoparticles atop a massed silver surface for surface enhancement Raman scattering". RSC Advances, (2014, Sep)  44457-44461 [Link]
• 254.T. D. Tsai, J. W. Chang, C. G. Wang, M. W. Lin, T. F. Guo, T. C. Wen, J. H. Chang, C. I. Wu, “The origins in the transformation of ambipolar to n-type pentacene-based organic field-effect transistors”, Organic Electronics 15 (2014) 1759–1766 [Link]
• 253.M. W. Lin, Y. C. Lin, A. Rauan, T. C. Wen, Y. J. Hsu, T. F. Guo, “Role of Solution-Processable Polyethylenimine Electrode Interlayer in Fabricating Air-Stable Polymer Light-Emitting Diodes”, Israel Journal of Chemistry 54 (2014) 935–941 [Link]
• 252.J. Y. Jeng, K. C. Chen, T. Y. Chiang, P. Y. Lin, T. D. Tsai, Y. C. Chang, T. F. Guo, P. Chen, T. C. Wen, Y. J. Hsu, “Nickel Oxide Electrode Interlayer in CH3NH3PbI3 Perovskite/PCBM Planar-Heterojunction Hybrid Solar Cells”, Advanced Materials 26 (2014) 4107–4113 [Link]
• 251.K. C. Wang, J. Y. Jeng, P. S. Shen, Y. C. Chang, E. W. G. Diau, C. H. Tsai, T. Y. Chao, H. C. Hsu, P. Y. Lin, P. Chen, T. F. Guo, and T. C. Wen, “p-type Mesoscopic Nickel Oxide/Organometallic Perovskite Heterojunction Solar Cells”, Scientific Reports 4 (2014) 4756 [Link]
• 250.S. C. Cheng, T. C. Wen, “Robust SERS substrates with massive nanogaps derived from silver nanocubes self-assembled on massed silver mirror via 1,2-ethanedithiol monolayer as linkage and ultra-thin spacer”, Materials Chemistry and Physics 143 (2014) 1331–1337 [Link]
• 249.J. J. Wang, Y. T. Liu, I. L Chen, Y. W. Yang, T. K. Yeh, C. H. Lee, C. C. Hu, T. C. Wen, T. Y. Chen, and T. L. Lin, “Near-Monolayer Platinum Shell on Core-Shell Nanocatalysts for High-Performance Direct Methanol Fuel Cell”, Journal of Physical Chemistry C 118 (2014) 2253–2262 [Link]
• 248.Y. C. Li, Y. C. Liao, T. C. Wen, and H. H. Wei, “Breakdown of the Bretherton law due to wall slippage”, Journal of Fluid Mechanics 741 (2014) 200–227 [Link]
• 247.C. H. Wu, C. Y. Chin, T. Y. Chen, T. F. Guo, C. H. Lee, T. L. Lin, A. K. Y. Jen, T. C. Wen, “Significance of ions with an ordered arrangement for enhancing the electron injection/extraction in polymer optoelectronic devices”, Journal of Materials Chemistry C 2 (2014) 4805–4811 [Link]
• 246.Y. F. Chiang, J. Y. Jeng, M. H. Lee, S. R. Peng, P. Chen, T. F. Guo, T. C. Wen, Y. J. Hsu, and C. M. Hsu, “High voltage and efficient bilayer heterojunction solar cells based on an organic-inorganic hybrid perovskite absorber with a low-cost flexible substrate”, Physical Chemistry Chemical Physics 16 (2014) 6033–6040 [Link]
• 245.K. W. Tsai, T. F. Guo, A. K. Y. Jen, and T. C. Wen, “Role of self-assembled tetraoctylammonium bromide on various conjugated polymers in polymer light-emitting diodes” Journal of Materials Chemistry C 2 (2014) 272–276 [Link]
• 244.W. S. Huang, Z. R. Xu, B. Hu, T. F. Guo, J. C. A. Huang, and T. C. Wen, “Magnetoconductance responses of triplet polaron pair charge reaction in hyperfine coupling regime”, Applied Physics Letters 103 (2013) 253304 [Link]
• 243.Y. H. Lee, M. W. Lin, T. C. Wen, and T. F. Guo, “The metal interlayer in the charge generation layer of tandem organic light-emitting diodes”, Journal of Applied Physics 114 (2013) 154512 [Link]
• 242.T. D. Tsai, J. W. Chang, T. C. Wen, and T. F. Guo, “Manipulating the Hysteresis in Poly(vinyl alcohol)-Dielectric Organic Field-Effect Transistors Toward Memory Elements”, Advanced Functional Materials 23 (2013) 4206–4214 [Link]
• 241.J. Y. Jeng, Y. F. Chiang, M. H. Lee, S. R. Peng, T. F. Guo, P. Chen, T. C. Wen, “CH3NH3PbI3 Perovskite/Fullerene Planar-Heterojunction Hybrid Solar Cells”, Advanced Materials 25 (2013) 3727–3732 [Link]
• 240.K. W. Tsai, T. H. Lee, J. H. Wu, J. Y. Jhou, W. S. Huang, S. N. Hsieh, T. C. Wen, T. F. Guo, and J. C. A. Huang, “Antagonistic responses between magnetoconductance and magnetoelectroluminescence in polymer light-emitting diodes”, Organic Electronics 14 (2013) 1376–1382 [Link]
• 239.Y. H. Lee, T. C. Wu, C. W. Liaw, T. C. Wen, S. W. Feng, J. J. Lee, Y. T. Wu, and T. F. Guo, “Non-doped active layer, benzo[k]fluoranthene-based linear acenes, for deep blue- to green-emissive organic light-emitting diodes”, Organic Electronics 14 (2013) 1064–1072 [Link]
• 238.C. Y. Wu, Y. T. Liu, P. C. Huang, T. J. M. Luo, C. H. Lee, Y. W. Yang, T. C. Wen, T. Y. Chen, and T. L. Lin, “Heterogeneous junction engineering on core-shell nanocatalysts boosts the dye-sensitized solar cell”, Nanoscale (2013) 9181–9192 [Link]
• 237.T. Y. Chen, Y. T. Liu, H. M. Nguyen, L. J. Fan, C. Y. Wu, T. J. M. Luo, C. H. Lee, Y. W. Yang, and T. C. Wen, T. L. Lin, “Ruthenium core-activated platinum monolayer shell high redox activity cathodic electrocatalysts for dye-sensitized solar cells”, Journal of Materials Chemistry 1 (2013) 5660–5669 [Link]
• 236.K. W. Tsai, S. N. Hsieh, T. F. Guo, Y. J. Hsu, A. K. Y. Jene and T. C. Wen, “Enhancing the hole injection ability of indium tin oxide via ammonium salts in polymer light-emitting diodes”, Journal of Materials Chemistry C 1 (2013) 531–535 [Link]
• 235.C. H. Wu, C. Y. Chin, T. Y. Chen, S. N. Hsieh, C. H. Lee, T. F. Guo, A. K. Y. Jen and T. C. Wen, “Enhanced performance of polymer solar cells using solution-processed tetra-n-alkyl ammonium bromides as electron extraction layers”, Journal of Materials Chemistry A 1 (2013) 2582–2587 [Link]
• 234.M. W. Lin, R. T. Chen, C. H. Yeh, T. C. Wen and T. F. Guo, “Bright, efficient, deep blue-emissive polymer light-emitting diodes of suitable hole-transport layer and cathode design”, Organic Electronics 13 (2012) 3067–3073 [Link]
• 233.T. Y. Chen, T. J. M. Luo, Y. W. Yang, Y. C. Wei, K. W. Wang, T. L. Lin, T. C. Wen and C. H. Lee, “Core Dominated Surface Activity of Core-Shell Nanocatalysts on Methanol Electrooxidation”, Journal of Physical Chemistry C 116 (2012) 16969–16978 [Link]
• 232.W. S. Huang, T. H. Lee, T. F. Guo, J. C. A. Huang and T. C. Wen, “Identifying the magnetoconductance responses by the induced charge transfer complex states in pentacene-based diodes”, Applied Physics Letters 101 (2012) 053307 [Link]
• 231.Y. H. Lee, T. C. Wu, C. W. Liaw, T. C. Wen, T. F. Guo and Y. T. Wu, “Benzo[k]fluoranthene-based linear acenes for efficient deep blue organic light-emitting devices”, Journal of Materials Chemistry 22 (2012) 11032–11038 [Link]
• 230.Y. C. Li, T. C. Wen and H. H. Wei, “Electrophoretic stretching of tethered polymer chains by travelling-wave electric fields: tunable stretching, expedited coil–stretch transition, and a new paradigm of dynamic molecular probing”, Soft Matter 8 (2012) 1977–1990 [Link]
• 229.C. C. Hung, C. H. Wu, C. H. Yang, Y. Wei, T. C. Wen, “Poly(vinyl alcohol)-assisted dispersion of polyaniline nanofiber for electrochemical applications”, Journal of Materials Research 26 (2011) 2980–2986 [Link]
• 228.J. Y. Jan, M. W. Lin, Y. J. Hsu, T. C. Wen and T. F. Guo, “The Roles of Poly(Ethylene Oxide) Electrode Buffers in Efficient Polymer Photovoltaics”, Advanced Energy Materials 1 (2011) 1192–1198 [Link]
• 227.H. C. Li, K. K. Rao, J. Y. Jeng, Y. J. Hsiao, T. F. Guo, Y. R. Jeng and T. C. Wen, “Nano-scale mechanical properties of polymer/fullerene bulk hetero-junction films and their influence on photovoltaic cells”, Solar Energy Materials and Solar Cells 95 (2011) 2976–2980 [Link]
• 226.J. W. Chang, C. G. Wang, C. Y. Huang, T. D. Tsai, T. F. Guo and T. C. Wen, “Chicken Albumen Dielectrics in Organic Field-Effect Transistors”, Advanced Materials 23 (2011) 4077–4081 [Link]
• 225.T. H. Lee, J. H. Li, W. S. Huang, B. Hu, J. C. A. Huang, T. F. Guo and T. C. Wen, “Magnetoconductance responses in organic charge-transfer-complex molecules”, Applied Physics Letters 99 (2011) 073307 [Link]
• 224.C. Y. Li, Y. N. Chou, J. R. Syu, S. N. Hsieh, T. D. Tsai, C. H. Wu, T. F. Guo, W. C. Hsu, Y. J. Hsu and T. C. Wen, “Effect of annealing ZnO on the performance of inverted polymer light-emitting diodes based on SAM/ZnO as an electron injection layer”, Organic Electronics 12 (2011) 1477–1482 [Link]
• 223.T. H. Chuang, S. T. Lin, T. C. Wen and J. S. Jan, “Layer-by-Layer Assembled Titania Tubular Nanostructures at Different Assembly Conditions”, Journal of Nanoscience and Nanotechnology 11 (2011) 5247–5257 [Link]
• 222.M. L. Tu, Y. K. Su, S. S. Wu, T. F. Guo, T. C. Wen and C. Y. Huang, “Violet electroluminescence from poly(N-vinylcarbazole)/ZnO-nanrod composite polymer light-emitting devices”, Synthetic Metals 161 (2011) 450–454 [Link]
• 221.S. N. Hsieh, S. W. Hsiao, T. Y. Chen, C. Y. Li, C. H. Lee, T. F. Guo, Y. J. Hsu, T. L. Lin, Y. Wei and T. C. Wen, “Self-assembled tetraoctylammonium bromide as an electron-injection layer for cathode-independent high-efficiency polymer light-emitting diodes”, Journal of Materials Chemistry 21 (2011) 8715–8720 [Link]
• 220.C. H. Yang, C. H. Wu, Y. J. Cai, C. Y. Li, Y. Wei, T. C. Wen, Y. T. Shieh, T. L. Wang, W. C. Lin and W. J. Chen, “Adsorption-induced polymerization of 3-methylthiophene at silver-coated glass surfaces and electroactive characteristics”, Materials Chemistry and Physics 127 (2011) 185–190 [Link]
• 219.X. Lu, W. Zhang, C. Wang, T. C. Wen and Y. Wei, “One-dimensional conducting polymer nanocomposites: Synthesis, properties and applications”, Progress in Polymer Science, Progress in Polymer Science 36 (2011) 671–712 [Link]
• 218.J. W. Chang, P. W. Liang, M. W. Lin, T. F. Guo, T. C. Wen and Y. J. Hsu, “An ambipolar to n-type transformation in pentacene-based organic field-effect transistors”, Organic Electronics 12 (2011) 509–515 [Link]
• 217.C. Y. Li, Y. J. Cai, C. H. Yang, C. H. Wu, Y. Wei, T. C. Wen, T. L. Wang, Y. T. Shieh, W. C. Line and W. J. Chen, “Highly sensitive and selective electrochemical determination of dopamine and ascorbic Acid at Ag/Ag2S modified electrode”, Electrochimica Acta 56 (2011) 1955–1959 [Link]
• 216.M. W. Lin, T. C. Wen, Y. J. Hsu, T. F. Guo, “Poly(ethylene oxide)-functionalized Al cathodes of tunable electron-injection capabilities for efficient polymer light-emitting diodes”, Journal of Materials Chemistry 21 (2011) 18840–18846 [Link]
• 215.C. C. Hung and T. C. Wen, “Study on the doping process of polyaniline in a thermal solution of poly(styrene sulfonic acid)”, Journal of the Taiwan Institute of Chemical Engineers 42 (2011) 371–376 [Link]
• 214.J. W. Chang, W. L. Hsu, C. Y. Wu, T. F. Guo and T. C. Wen, “The polymer gate dielectrics and source-drain electrodes on n-type pentacene-based organic field-effect transistors”, Organic Electronics 11 (2010) 1613–1619 [Link]
• 213.T. S. Huang, C. Y. Huang, Y. K. Su, Y. C. Chen, J. S. Fang, T. C. Wen, “Extension of active region in crossbar-type polymer solar photovoltaics induced by highly conductive PEDOT:PSS buffer layer”, Journal of Vacuum Science & Technology B 28 (2010) 702–705 [Link]
• 212.C. C. Fu, T. C. Hung, W. T. Wu, T. C. Wen and C. H. Su, “Current and voltage responses in instant photosynthetic microbial cells with Spirulina platensis”, Biochemical Engineering Journal 52 (2010) 175–180 [Link]
• 211.C. C. Hung, T. C. Wen and Y. Wei, “Site-selective deposition of ultra-fine Au nanoparticles on polyaniline nanofibers for H2O2 sensing”, Materials Chemistry and Physics 122 (2010) 392–396 [Link]
• 210.C. Y. Huang, Y. K. Su, C.Y. Cheng, M. V. M. Rao, Y. C. Chen, T. S. Huang, T. C. Wen and T. F. Guo, “Color-Tunable Polymer Light-Emitting Diodes with Conjugated Polymer Homojunctions”, Japanese Journal of Applied Physics 49 (2010) 04DK10 [Link]
• 209.T. H. Lee, B. Hu, C. L. Tsai, R. S. Guan, T. C. Wen, T. F. Guo and J. C. A. Huang, “The magneto conductance responses in polymer photovoltaic devices”, Organic Electronics 11 (2010) 677–685 [Link]
• 208.W. Wang, Y. H. Lin, T. C. Wen, T. F. Guo and G. B. Lee, “Selective manipulation of microparticles using polymer-based optically induced dielectrophoretic devices”, Applied Physics Letters 96 (2010) 113302 [Link]
• 207.S. N. Hsieh, S. P. Chen, C. Y. Li, T. C. Wen, T. F. Guo and Y. J. Hsu, “Surface modification of TiO2 by a self-assembly monolayer in inverted-type polymer light-emitting devices”, Organic Electronics 10 (2009) 1626–1631 [Link]
• 206.T. F. Guo, T. C. Wen, Y. S. Huang, M. W. Lin, C. C. Tsou and C. T. Chung, “White-emissive tandem-type hybrid organic/polymer diodes with (0.33,0.33) chromaticity coordinates”, Optics Express 17 (2009) 21205–21215 [Link]
• 205.Y. C. Li, Y. J. Lin, C. Y. Wei, Z. X. Lin, T. C. Wen, M. Y. Chang, C. L. Tsai, and Y. H. Wang, “Performance improvement in transparent organic thin-film transistors with indium tin oxide/fullerene source/drain contact”, Applied Physics Letters 95 (2009) 163303 [Link]
• 204.W. Wang, Y. H. Lin, R. S. Guan, T. C. Wen, T. F. Guo and G. B. Lee, “Bulk-heterojunction polymers in optically-induced dielectrophoretic devices for the manipulation of microparticles”, Optics Express 17 (2009) 17603–17613 [Link]
• 203.L. W. Chong, Y. N. Chou, Y. L. Lee, T. C. Wen and T. F. Guo, “Hole-injection enhancement of top-emissive polymer light-emitting diodes by P3HT/FNAB modification of Ag anode”, Organic Electronics 10 (2009) 1141–1145 [Link]
• 202.L. M. Huang, W. H. Liao, H. C. Ling and T. C. Wen, “Simultaneous synthesis of polyaniline nanofibers and metal (Ag and Pt) nanoparticles”, Materials Chemistry and Physics 116 (2009) 474–478 [Link]
• 201.C. C. Hu, Y. D. Tsai, C. C. Lin, G. L. Lee, S. W. Chen, T. C. Lee and T. C. Wen, “Anomalous growth of whisker-like bismuth-tin extrusions from tin-enriched tin-Bi deposits”, Journal of Alloys and Compounds 472 (2009) 121–126 [Link]
• 200.C. C. Chang, T. C. Wen, C. H. Yang and Y. D. Juang, “Influence of calcination temperature of IrO2/Ti electrodes on oxygen reduction”, Materials Chemistry and Physics 115 (2009) 93–97 [Link]
• 199.C. Y. Li, T. C. Wen, T. H. Lee, T. F. Guo, J. C. A. Huang, Y. C. Lin and Y. J. Hsu, “An inverted polymer photovoltaic cell with increased air stability obtained by employing novel hole/electron collecting layers”, Journal of Materials Chemistry 19 (2009) 1643–1647 [Link]
• 198.S. N. sieh, T. Y. Kuo, L. W. Chong, T. C. Wen, F. S. Yang, T. F. Guo and C. T. Chung, “A Study of Semitransparent Cathodes on the Performance of Top-Emitting Polymer Light-Emitting Diodes”, IEEE Photonics Technology Letters 21 (2009) 109–111 [Link]
• 197.T. S. Huang, C. Y. Huang, Y. K. Su, J. S. Fang, M. V. M. Rao, T. F. Guo and T. C. Wen, “High-Efficiency Polymer Photovoltaic Devices With Glycerol-Modified Buffer Layer”, IEEE Photonics Technology Letters 20 (2008) 1935–1937 [Link]
• 196.T. K. Chang, C. C. Chang and T. C. Wen, “The methanol adsorption behavior on platinum/poly(2,5-dimethoxyaniline) composites for application in methanol sensing”, Journal of Power Sources 185 (2008) 603–608 [Link]
• 195.C. W. Kuo, C. Sivakumar and T. C. Wen, “Nanoparticles of Pt/HxMoO3 electrodeposited in poly(3,4-ethylenedioxythiophene)-poly(styrene sulfonic acid) as the electrocatalyst for methanol oxidation”, Journal of Power Sources 185 (2008) 807–814 [Link]
• 194.C. W. Kuo and T. C. Wen, “Dispersible polyaniline nanoparticles in aqueous poly(styrenesulfonic acid) via the interfacial polymerization route”, European Polymer Journal 44 (2008) 3393–3401 [Link]
• 193.F. J. Liu, L. M. Huang, T. C. Wen, C. F. Li, S. L. Huang and A. Gopalan, “Platinum particles dispersed polyaniline-modified electrodes containing sulfonated polyelectrolyte for methanol oxidation”, Synthetic Metals 158 (2008) 767–774 [Link]
• 192.F. J. Liu, L. M. Huang, T. C. Wen, C. F. Li, S. L. Huang and A. Gopalan, “Effect of deposition sequence of platinum and ruthenium particles into nanofibrous network of polyaniline-poly(styrene sulfonic acid) on electrocatalytic oxidation of methanol”, Synthetic Metals 158 (2008) 603–609 [Link]
• 191.L. M. Huang and T. C. Wen, “Platinum–ruthenium nanoparticles in poly(2,5-dimethoxyaniline)-poly(styrene sulfonic acid) via one-step synthesis route for methanol oxidation”, Journal of Power Sources 182 (2008) 32–38 [Link]
• 190.L. W. Chong, T. C. Wen, Y. L. Lee and T. F. Guo, “The modification of silver anode by an organic solvent (tetrahydrofuran) for top-emissive polymer light-emitting diodes”, Organic Electronics 9 (2008) 515–521 [Link]
• 189.T. K. Chang and T. C. Wen, “Poly(2,5-dimethoxyaniline-co-2,5- diaminobenzenesulfonic acid) with cross-linking structure for platinum deposits in methanol oxidation”, Synthetic Metals 158 (2008) 364–368 [Link]
• 188.C. Y. Huang, Y. K. Su, T. C. Wen, T. F. Guo and M. L. Tu, “Single-layered hybrid DBPPV-CdSe-ZnS quantum-dot light-emitting diodes”, IEEE Photonics Technology Letters 20 (2008) 282–284 [Link]
• 187.Y.C. Li, Y. J. Lin, H. J. Yeh, T. C. Wen, L. M. Huang, Y. K. Chen and Y. H. Wang, “Ion-modulated electrical conduction in polyaniline-based field-effect transistors”, Applied Physics Letters 92 (2008) 093508 [Link]
• 186.T. H. Lee, T. F. Guo, J. C. A. Huang and T. C. Wen, “Modulations of photoinduced magnetoconductance for polymer diodes”, Applied Physics Letters 92 (2008) 153303 [Link]
• 185.Y. J. Lin, Y.C. Li, T. C. Wen, L. M. Huang, Y. K. Chen, H. J. Yeh and Y. H. Wang, “Improvement of transparent organic thin film transistor performance by inserting a lithium fluoride buffer layer”, Applied Physics Letters 93 (2008) 043305 [Link]
• 184.C. Y. Li, T. C. Wen, T. F. Guo and S. S. Hou, “A facile synthesis of sulfonated poly(diphenylamine) and the application as a novel hole injection layer in polymer light emitting diodes”, Polymer 49 (2008) 957–964 [Link]
• 183.C. Y. Li, T. C. Wen and T. F. Guo, “Sulfonated poly(diphenylamine) as a novel hole-collecting layer in polymer photovoltaic cells”, Journal of Materials Chemistry 18 (2008) 4478 [Link]
• 182.T. F. Guo, T. C. Wen, G. L. Pakhomov, X. G. Chin, S. H. Liou, P. H. Yeh and C. H. Yang, “Effects of film treatment on the performance of poly(3-hexylthiophene)/soluble fullerene-based organic solar cells”, Thin Solid Films 516 (2008) 3138–3142 [Link]
• 181.T. H. Lee, J. C. A. Huang, G. L. Pakhomov, T. F. Guo, T. C. Wen, Y. S. Huang, C. C. Tsou, C. T. Chung, Y. C. Lin and Y. J. Hsu, “Organic-oxide cathode buffer layer in fabricating high-performance polymer light-emitting diodes”, Advanced Functional Materials 18 (2008) 3036–3042 [Link]
• 180.C. C. Hu, J. H. Su and T. C. Wen, “Modification of multi-walled carbon nanotubes for electric double-layer capacitors: Tube opening and surface functionalization”, Journal of Physics and Chemistry of Solids 68 (2007) 2353–2362 [Link]
• 179.F. J. Liu, L. M. Huang, T. C. Wen and A. Gopalan, “Large-area network of polyaniline nanowires supported platinum nanocatalysts for methanol oxidation”, Synthetic Metals 157 (2007) 651–658 [Link]
• 178.L. M. Huang and T. C. Wen, “One-step synthesis of silver nanoparticles and poly(2,5-dimethoxyaniline) in poly(styrene sulfonic acid)”, Materials Science and Engineering: A 445 (2007) 7–13 [Link]
• 177.L. M. Huang, W. R. Tang and T. C. Wen, “Spatially electrodeposited platinum in polyaniline doped with poly(styrene sulfonic acid) for methanol oxidation”, Journal of Power Sources 164 (2007) 519–526 [Link]
• 176.L. W. Chong, Y. L. Lee and T. C. Wen, “Surface modification of indium tin oxide anodes by self-assembly monolayers: Effects on interfacial morphology and charge injection in organic light-emitting diodes”, Thin Solid Films 515 (2007) 2833–2841 [Link]
• 175.Y. J. Lin, Y. C. Li, H. J. Yeh, Y. H. Wang, T. C. Wen, L. M. Huang and Y. K. Chen, “Blending of poly(3,4-ethylenedioxythiophene) poly(styrene sulfonic acid) with poly(ethyleneimine) as an active layer in depletion-model organic thin film transistors”, Applied Physics Letters 91 (2007) 253501 [Link]
• 174.S. N. Hsieh, T. Y. Kuo, P. C. Hsu, T. C. Wen and T. F. Guo, “Study of polymer blends on polymer light-emitting diodes”, Materials Chemistry and Physics 106 (2007) 70–73 [Link]
• 173.C. C. Yeh, Y. J. Lin, S. K. Lin, Y. H. Wang, S. F. Cheng, L. M. Huang and T. C. Wen, “Plasma treatment on patristic substrates for liquid-phase-deposited SiO2”, Journal of Vacuum Science and Technology B 25 (2007) 1635–1639 [Link]
• 172.F. J. Liu, L. M. Huang, T. C. Wen, K. C. Yin, J. S. Hung and A. Gopalan, “Composite electrodes consisting of platinum particles and polyaniline nanowires as electrocatalysts for methanol oxidation”, Polymer Composites 28 (2007) 650–656 [Link]
• 171.F. J. Liu, L. M. Huang, T. C. Wen, A. Gopalan and J. S. Hung, “Interfacial synthesis of platinum loaded polyaniline nanowires in poly(styrene sulfonic acid)”, Materials Letters 61 (2007) 4400 [Link]
• 170.T. F. Guo, Z. J. Tsai, S. Y. Chen, T. C. Wen and C. T. Chung, “Influence of polymer gate dielectrics on n-channel conduction of pentacene-based organic field-effect transistors”, Journal of Applied Physics 101 (2007) 124505 [Link]
• 169.C. H. Yang, L. R. Huang, T. C. Wen, S. L. Chung and T. L. Wang, “Electrochemical leveling effect on multi-aromatic monomer films to prepare robust conducting polymer nano- and microfilms by vapor deposition combined with electropolymerization”, Journal of Physical Chemistry C 111 (2007) 9227–9234 [Link]
• 168.S. N. Hsieh, T. C. Wen and T. F. Guo, “Improved Performance of Top-Emissive Polymer Light-Emitting Device with Semitransparent Ag Cathode with the Aid of Au Nanoparticles”, Japanese Journal of Applied Physics Part 1-Regular Papers Brief Communications & Review Papers 46 (2007) 932–936 [Link]
• 167.W. Y. Chou, S. T. Lin, H. L. Cheng, M. H. Chang, H. R. Guo, T. C. Wen, Y. S. Mai, J. B. Horng, C. W. Kuo, F. C. Tang, C. C. Liao and C. L. Chiu, “Polymer light-emitting diodes with thermal inkjet printed poly(3,4-ethylenedioxythiophene): polystyrenesulfonate as transparent anode”, Thin Solid Films 515 (2007) 3718–3723 [Link]
• 166.S. N. Hsieh, T. C. Wen and T. F. Guo, “Polymer/gold nanoparticles light emitting diodes utilizing high work function metal cathodes”, Materials Chemistry and Physics 101 (2007) 383–386 [Link]
• 165.W. Y. Chou, Y. S. Mai, H. L Cheng, C. Y. Yeh, C. W. Kuo, F. C. Tang, D. Y. Shu, T. R. Yew and T. C. Wen, “Correlation of growth of pentacene films at various gas ambience conditions to organic field-effect transistor characteristics”, Organic Electronics 7 (2006) 445–451 [Link]
• 164.L. M. Huang, H. Z. Lin, T. C. Wen and A. Gopalan, “Highly dispersed hydrous ruthenium oxide in poly(3,4-ethylenedioxythiophene)-poly(styrene sulfonic acid) for supercapacitor electrode”, Electrochimica Acta 52 (2006) 1058–1063 [Link]
• 163.T. F. Guo, G. L. Pakhmov, T. C. Wen, X. G. Chin and S. H. Liou, “Effect of TiO2 nanoparticles on polymer-based bulk heterojunction solar cells”, Japanese Journal of Applied Physics Part 2-Letters & Express Letters 45 (2006) L1314–L1316 [Link]
• 162.L. W Chong, Y. L. Lee, T. C. Wen and T. F. Guo, “Self-assembled monolayer-modified Ag anode for top-emitting polymer light-emitting diodes”, Applied Physics Letters 89 (2006) 233513 [Link]
• 161.Y. J. Lin, Y. C. Li, C. C. Yeh, S. F. Chung, L. M. Huang, T. C. Wen and Y. H. Wang, “Organic thin film transistor by using polymer electrolyte to modulate the conductivity of conjugated polymer”, Applied Physics Letters 89 (2006) 223518 [Link]
• 160.C. C. Chang and T. C. Wen, “Kinetics and mechanism of oxygen reduction at hydrous oxide film-covered platinum electrode in alkaline solution”, Electrochimica Acta 52 (2006) 623–629 [Link]
• 159.L. M. Huang, G. C. Huang and T. C. Wen, “Role of anions in the polymerization of 2,5-dimethoxyaniline in the presence of poly(styrene sulfonic acid)”, Journal of Polymer Science A 44 (2006) 6624–6632 [Link]
• 158.L. M. Huang, C. C. Tsai, T. C. Wen and A. Gopalan, “Simultaneous synthesis of silver nanoparticles and poly(2,5-dimethoxyaniline) in poly(styrene sulfonic acid)”, Journal of Polymer Science A 44 (2006) 3843–3852 [Link]
• 157.C. W. Kuo, L. M. Huang, T. C. Wen and A. Gopalan, “Enhanced electrocatalytic performance for methanol oxidation of a novel Pt-dispersed poly (3,4-ethylenedioxythiophene)-poly (styrene sulfonic acid) electrode”, Journal of Power Sources 160 (2006) 65–72 [Link]
• 156.T. F. Guo, F. S. Yang, Z. J. Tsai, G. W. Feng, T. C. Wen, C. T. Chung and C. I. Wu, “Organic oxide/Al composite cathode in small molecular organic light-emitting diodes”, Applied Physics Letters 89 (2006) 053507 [Link]
• 155.T. F. Guo, F. S. Yang, Z. J. Tsai, G. W. Feng, T. C. Wen, S. N. Hsieh, C. T. Chung and C. I. Wu, “High-brightness top-emissive polymer light-emitting diodes utilizing organic oxide/Al/Ag composite cathode”, Applied Physics Letters 89 (2006) 051103 [Link]
• 154.L. M. Huang, C. H. Chen and T. C. Wen, “Development and characterization of flexible electrochromic devices based on polyaniline and poly(3,4-ethylenedioxythiophene)-poly(styrene sulfonic acid)”, Electrochimica Acta 51 (2006) 5858–5863 [Link]
• 153.S. N. Hsieh, T. Y. Kuo, T. C. Wen, T. F. Guo and Y. L. Lee, “High-efficiency polymer light-emitting diode via al interfacial modification using polyurethane”, Japanese Journal of Applied Physics Part 2-Letters & Express Letters 45 (2006) L773–L776 [Link]
• 152.L. M. Huang, T. C. Wen and A. Gopalan, “Electrochemical and spectroelectrochemical monitoring of supercapacitance and electrochromic properties of hydrous ruthenium oxide embedded poly(3,4-ethylenedioxythiophene)-poly(styrene sulfonic acid) composite”, Electrochimica Acta 51 (2006) 3469–3476 [Link]
• 151.Y. L. Chen, L. M. Huang, T. C. Wen and A. Gopalan, “Superior performance characteristics for the poly(2,5-dimethoxyaniline)-poly(styrene sulfonic acid)-based electrochromic device”, Solid State Ionics 177 (2006) 795–802 [Link]
• 150.C. Y. Chang, S. N. Hsieh, T. C. Wen, T. F. Guo and C. H. Cheng, “High efficiency red electrophosphorescent polymer light-emitting diode”, Chemical Physics Letters 418 (2006) 50–53 [Link]
• 149.S. F. Chung, T. C. Wen, W. Y. Chou and T. F. Guo, “High luminescence polarized polymer light emitting diodes fabricated using aligned polyfluorene”, Japanese Journal of Applied Physics 45 (2006) L60–L63 [Link]
• 148.T. F. Guo, F. S. Yang, Z. J. Tsai, T. C. Wen, S. N. Hsieh, Y. S. Fu and C. T. Chung, “Organic oxide/Al composite cathode in efficient polymer light emitting diodes”, Applied Physics Letters 88 (2006) 113501 [Link]
• 147.L. M. Huang, C. H. Chen, T. C. Wen and A. Gopalan, “Effect of secondary dopants on electrochemical and spectroelectrochemical properties of polyaniline”, Electrochimica Acta 51 (2006) 2756–2764 [Link]
• 146.P. Santhosh, C. Sivakumar, A. Gopalan, T. Vasudevan and T. C. Wen, “Electrochemical synthesis and characterization of conducting poly(diphenylamine-co-2-methoxyaniline)”, International Journal of Polymer Analysis and Characterize 10 (2005) 341–360 [Link]
• 145.P. Santhosh, A. Gopalan, T. Vasudevan and T. C. Wen, “Studies on monitoring the composition of the copolymer by cyclic voltammetry and in situ spectroelectrochemical analysis”, European Polymer Journal 41 (2005) 97–105 [Link]
• 144.S. F. Chung, T. C. Wen and A. Gopalan, “Influence of dopant size on the junction properties of polyaniline”, Materials Science and Engineering B 116 (2005) 125–130 [Link]
• 143.M. L. Tu, Y. K. Su, W. C. Lu, H. Yang, T. F. Guo and T. C. Wen, “Effect of post annealing on performance of polymer light-emitting devices”, Japanese Journal of Applied Physics 44 (2005) 7482–7484 [Link]
• 142.S. F. Chung, Y. L. Lee and T. C. Wen, “The extensibility of poly(diphenylamine) monolayer at air/liquid interface”, Thin Solid Films 493 (2005) 258–266 [Link]
• 141.T. F. Guo, F. S. Yang, Z. J. Tsai, S. N. Hsieh, T. C. Wen and Y. S. Fu, “High performance polymer light-emitting diodes utilizing modified Al cathode”, Applied Physics Letters 87 (2005) 013504 [Link]
• 140.C. H. Yang, L. W. Chong, L. M. Huang, Y. L. Lee and T. C. Wen, “Novel electrochromic devices based on composite films of Poly(2,5-dimethoxyaniline)-waterborne Polyurethane”, Materials Chemistry and Physics 91 (2005) 151–160 [Link]
• 139.L. M. Huang, T. C. Wen and A. Gopalan, “Electronic and junction properties of poly(2,5-dimethoxyaniline)–polyethylene oxide blend/metal schottky diodes”, Thin Solid Films 473 (2005) 300–307 [Link]
• 138.W. C. Chen, T. C. Wen and A. Gopalan, “Fabrication and characterization of schottky junctions of aluminum with polyaniline containing hydrolysis products”, Journal of the Electrochemical Society 151 (2004) F242–F247 [Link]
• 137.C. Y. Chung, T. C. Wen and A. Gopalan, “In situ UV-Vis spectroelectrochemical studies to identify electrochromic sites in poly(1-naphthylamine) modified by diphenylamine”, Spectrochimica Acta A 60 (2004) 585–593 [Link]
• 136.R. Buvaneswari, A. Gopalan, T. Vasudevan, H. L. Wang and T. C. Wen, ”Deposition, growth processes and characterization of Poly(diphenylamine-co-N-methyl aniline)”, Thin Solid Films 458 (2004) 77–85 [Link]
• 135.H. L. Wang, C. M. Fu, A. Gopalan and T. C. Wen, “Frequency dependent conductivity of the thin film blend of electroluminescent poly(p-phenylene vinylene) with waterborne polyurethane as ionomer”, Thin Solid Films 466 (2004) 197–203 [Link]
• 134.W. C. Chen, H. H. Chen, T. C. Wen, M. Digar and A. Gopalan, “Morphology and ionic conductivity of thermoplastic polyurethane electrolytes”, Journal of Applied Polymer Science 91 (2004) 1154–1167 [Link]
• 133.P. L. Kuo, S. S. Hou, C. Y. Lin, C. C. Chen and T. C. Wen, “Solid polymer electrolytes I, preparation, characterization and ionic conductivity of gelled polymer electrolytes based on novel crosslinked siloxane/poly(ethylene glycol) polymers”, Journal of Polymer Science A 42 (2004) 2051–2059 [Link]
• 132.H. L. Wang, T. C. Wen and C. H. Yang, “Demonstration of assembly failure of light-emitting electrochemical cells”, Journal of the Chinese Institute of Chemical Engineers 34 (2003) 581–586 [Link]
• 131.Y. T. Tsai, T. C. Wen and A.Gopalan, “Tuning the optical sensing of pH by poly(diphenylamine)”, Sensors and Actuators B 96 (2003) 646–657 [Link]
• 130.L. M. Huang, T. C. Wen and A. Gopalan, “Structural influence on the electronic properties of methoxy substituted polyaniline/aluminum Schottky barrier diodes”, Materials Science and Engineering B 104 (2003) 88–95 [Link]
• 129.H. L. Wang, A.Gopalan and T. C. Wen, “A novel lithium single ion based polyurethane electrolyte for light-emitting electrochemical cell”, Materials Chemistry and Physics 82 (2003) 793–800 [Link]
• 128.H. L. Wang and T. C. Wen, “Blending polyurethane ionomer with poly(p-phenylene vinylene) for light-emitting electrochemical cells”, Materials Chemistry and Physics 82 (2003) 341–346 [Link]
• 127.W. C. Chen and T. C. Wen, “Electrochemical and capacitive properties of polyaniline-implanted porous carbon electrode for supercapacitors”, Journal of Power Sources 117 (2003) 273–282 [Link]
• 126.T. C. Wen, C. H. Yang, Y. C. Chen and W. C. Lin, “Electrochemical synthesis and spectroelectrochemical characteristics of pyrrole-2,2-dithiodianiline copolymer”, Journal of the Electrochemical Society 150 (2003) D123–D128 [Link]
• 125.M. Thanneermalai, T. Jeyaraman, C. Sivakumar, A. Gopalan, T. Vasudevan and T. C. Wen, “In situ UV-visible spectroelectrochemical evidences for conducting copolymer formation between diphenylamine and m-methoxyaniline”, Spectrochimica Acta A 59 (2003) 1937–1950 [Link]
• 124.V. Rajendran, A. Gopalan, R. Buvaneswari, T. Vasudevan and T. C. Wen, “Deposition of poly(diphenylamine-co-o-chloroaniline) by pulse potentiostatic method: Growth equation and characterization”, Journal of Applied Polymer Science 88 (2003) 389–397 [Link]
• 123.W. C. Chen, T. C. Wen and H. Teng, “Polyaniline-deposited porous carbon electrode for supercapacitor”, Electrochimica Acta 48 (2003) 641–649 [Link]
• 122.S. Prakash, C. Sivakumar, T. Vasudevan, A. Gopalan and T. C. Wen, “Growth behavior and characterization of poly(o-toluidine-co-m-bromoaniline) by cyclic voltametry”, International Journal of Polymer Analysis and Characterization 8 (2003) 1–27 [Link]
• 121.L. M. Huang, T. C. Wen and A. Gopalan, “Synthesis and characterization of soluble conducting poly(aniline-co-2,5-dimethoxyaniline)”, Materials Letters 57 (2003) 1765–1774 [Link]
• 120.S. S. Chen, T. C. Wen and A. Gopalan, “Electrosynthesis and characterization of a conducting copolymer having S-S links”, Synthetic Metals 132 (2003) 133–143 [Link]
• 119.C. Sivakumar, T. C. Wen, A. Gopalan and H. Teng “Electroactive conducting blends of poly(o-toluidine) and poly(vinylidene fluoride) and characterisation”, Synthetic Metals 132 (2003) 219–226 [Link]
• 118.W. C. Chen, T. C. Wen and A. Gopalan, “The inductive behavior derived from hydrolysis of polyaniline”, Electrochimica Acta 47 (2002) 4195–4206 [Link]
• 117.T. C. Wen, J. B. Chen and A. Gopalan, “Soluble and methane sulfonic acid doped poly(diphenylamine) – Synthesis and characterization”, Materials Letters 57 (2003) 280–290 [Link]
• 116.L. M. Huang, T. C. Wen and C. H. Yang, “Electrochemical copolymerization of aniline and 2,2'-dithiodianiline”, Materials Chemistry and Physics 77 (2003) 434–441 [Link]
• 115.L. M. Huang, T. C. Wen and A. Gopalan, “Poly(2,5-dimethoxyaniline) based electrochromic device”, Materials Chemistry and Physics 77 (2003) 726–733 [Link]
• 114.L. M. Huang, T. C. Wen and A. Gopalan, “In situ UV-visible spectroelectrochemical studies on electrochromic behavior of poly(2,5-dimethoxyaniline)”, Synthetic Metals 130 (2002) 155–163 [Link]
• 113.W. C. Chen, T. C. Wen and A. Gopalan, “Role of anions to influence inductive behavior for poly(2-amino diphenylamine-co-aniline)—An electrochemical impedance spectroscopic analysis”, Synthetic Metals 130 (2002) 61–71 [Link]
• 112.T. C. Wen, Y. H. Chen and A. Gopalan, “Electrochemical synthesis and characterization of a new conducting copolymer having amino isoquinoline units to influence redox characteristics”, Materials Chemistry and Physics 77 (2002) 559–570 [Link]
• 111.C. F. Chang, W. C. Chen, T. C. Wen and A. Gopalan, “Electrochemical and spectroelectrochemical studies on copolymerization of diphenylamine with 2,5-diaminobenzenesulfonic acid”, Journal of the Electrochemical Society 149 (2002) E298–E305 [Link]
• 110.H. H. Kuo, W. C. Chen, T. C. Wen and A. Gopalan, “A novel composite gel polymer electrolyte for rechargeable lithium batteries”, Journal of Power Sources 110 (2002) 27–33 [Link]
• 109.W. C. Chen, T. C. Wen and A. Gopalan, “Negative capacitance for polyaniline – An analysis via electrochemical impedance spectroscopy”, Synthetic Metals 128 (2002) 179–189 [Link]
• 108.W. C. Chen, T. C. Wen, C. C. Hu and A. Gopalan, “Identification of inductive behavior for polyaniline via electrochemical impedance spectroscopy”, Electrochimica Acta 47 (2002) 1305–1315 [Link]
• 107.M. Digar S. L. Hung, T. C. Wen and A. Gopalan, “Studies on cross-linked polyurethane acrylate based electrolyte consisting of reactive vinyl/divinyl diluents”, Polymer 43 (2002) 1615.
• 106.C. Sivakumar, T. Vasudevan, A. Gopalan and T. C. Wen, “Simultaneous synthesis and doping of poly(1,6-heptadiyne-co-dipropargyl ether) using ionic initiators”, Polymer 43 (2002) 1781.
• 105.T. C. Wen, H. H. Kuo and A. Gopalan, “The influence of lithium ions on molecular interaction and conductivity of composite electrolyte consisting of TPU and PAN”, Solid State Ionics 147 (2002) 171.
• 104.S. L. Hung, T. C. Wen and A. Gopalan, “Application of statistical design strategies to optimize conductivity of electrosynthesized polypyrrole”, Materials Letters 55 (2002) 165.
• 103.T. C. Wen, Y. L. Du and M. Digar, “Compositional effect on the morphology and ionic conductivity of thermoplastic polyurethane based electrolytes”, European Polymer Journal 38 (2002) 1039.
• 102.T. C. Wen, C. Sivakumar and A. Gopalan, “Studies on processable conducting blend of poly(diphenylamine) and poly(vinylidene fluoride)”, Materials Letters 54 (2002) 430.
• 101.M. Digar S.L. Hung, H.L. Wang, T. C. Wen and A. Gopalan, “Study of ionic conductivity and microstructure of a cross-linked polyurethane acrylate electrolyte”, Polymer 43 (2002) 681.
• 100.S. Parkash, C. Sivakumar, Rajendra, T. Vasudevan, A. Gopalan and T. C. Wen, “Growth behavior of poly(o-toluidine-co-p-fluoroaniline) deposition by cyclic voltammetry”, Materials Chemistry and Physics 74 (2002) 74.
• 99.C. Sivakumar, A. Gopalan, T. Vasudevan and T. C. Wen, “Kinetics of polymerization of n-methyl aniline using UV-visible spectroscopy”, Synthetic Metals 126 (2002) 123–135 [Link]
• 98.T. C. Wen, C. Sivakumar, A. Gopalan, “In situ spectroelectrochemical evidences for the copolymerization of o-toluidine with diphenylamine-4 -sulphonic acid by UV-Visible spectroscopy”, Spectrochimica Acta Part-A: Molecular and Biomolecular Spectroscopy 58 (2002) 167.
• 97.M. S. Wu, T. C. Wen and A. Gopalan, “In situ UV-visible spectrochemical studies on the copolymerization of diphenylamine with anthranilic acid”, Materials Chemistry and Physics 74 (2002) 58–65 [Link]
• 96.W. C. Chen, T. C. Wen and A. Gopalan, “Electrochemical and spetroelectrochemical evidences for copolymer formation between 2-amino diphenylamine and aniline”, Journal of the Electrochemistry Society 148 (2001) E427–E434 [Link]
• 95.C. Y. Chung, T. C. Wen and A. Gopalan, “Identification of electrochromic sites in poly(diphenylamine) using a novel absorbance-potential-wavelength profile”, Electrochimica Acta 47 (2001) 423–439 [Link]
• 94.C. Sivakumar, A. Gopalan, T. Vasudevan and T. C. Wen, “Soluble conducting poly(dipropargyl ether) formation through ultraviolet-visible spectroscopy”, Journal of Materials Science 36 (2001) 5289–5294
• 93.T. C. Wen, H. H. Kuo and A. Gopalan, “Statistical design strategies to optimize properties in emulsion copolymerization of methyl methacrylate and acrylonitrile”, Industrial & Engineering Chemistry Research 40 (2001) 4536.
• 92.T. C. Wen, L. M. Huang and A. Gopalan, “Spectroscopic and thermal properties of the copolymer of aniline with dithiodianiline”, Synthetic Metals 123 (2001) 451–457 [Link]
• 91.C. Y. Chung, T. C. Wen and A. Gopalan, “Electrochemical copolymerization of 1-naphthylamine with aniline and o-toluidine”, Materials Chemistry and Physics 71 (2001) 148.
• 90.T. C. Wen, J. C. Fan and A. Gopalan, “Morphology and conductivity changes in a thermoplastic polyurethane based copolymer consisting of different soft segments”, Journal of Applied Polymer Science 82 (2001) 1462.
• 89.T. C. Wen, J. C. Fang, H. J. Lin and C. H. Yang, “Characteristics of PPG-based thermoplastic polyurethane doped with lithium perchlorate”, Journal of Applied Polymer Science 82 (2001) 389.
• 88.M. Digar, S. L. Hung and T. C. Wen, “Blending poly(methyl methacrylate) and poly(styrene-co-acrylonitrile) as composite polymer electrolyte”, Journal of Applied Polymer Science 80 (2001) 1319.
• 87.Y. L. Du and T. C. Wen, “The feasibility study of composite electrolytes comprising thermoplastic polyurethane and poly(ethylene oxide)”, Materials Chemistry and Physics 71 (2001) 62.
• 86.T. C. Wen, L. M. Huang and A. Gopalan, “An in situ spetroelectrochemical investigation on the copolymerization of diaminobezenesulfonic acid with aniline and its derivatives”, Electrochimica Acta 46 (2001) 2463–2475 [Link]
• 85.M. S. Wu, T. C. Wen and A. Gopalan, “Electrochemical copolymerization of diphenylamine and anthranilic acid with various feed ratios”, Journal of The Electrochemistry Society 148 (2001) D65–D73 [Link]
• 84.T. C. Wen and H. H. Chen, “Soft segmental effect of methylene bis(p-cyclohexyl isocyanate) based thermoplastic polyurethane impregnated with lithium perchlorate/propylene carbonate on ionic conductivity”, Journal of Applied Polymer Science 80 (2001) 935.
• 83.T. C. Wen, H. H. Kuo and A. Gopalan, “Studies on composite electrolytes composed of thermoplastic polyurethane and polyacrylonitrile”, Macromolecules 34 (2001) 2958.
• 82.T. C. Wen, S. L. Hung and M. Digar, “Effect of polypyrrole on the morphology and ionic conductivity of TPU electrolyte containing LiClO4”, Synthetic Metals 118 (2001) 11–18 [Link]
• 81.V. Rajendra, A. Gopalan, T. Vasudevan, W. C. Chen and T. C. Wen, “Deposition of copolymer of aniline with o-chloro aniline by pulse potentiostatic method and characterization”, Materials Chemistry and Physics 69 (2001) 62–71
• 80.T. C. Wen, L. M. Huang and A. Gopalan, “Electrochemical synthesis of a polyaniline-based conducting copolymer with -S-S-links”, Journal of The Electrochemistry Society 148 (2001) D9–D17
• 79.R. Anbarasan, N. Muthumani, T. Vasudevan, A. Gopalan and T. C. Wen, “Chemical grafting of polyaniline onto Nylon66 fiber in different media”, Journal of Applied Polymer Science 79 (2001) 1283.
• 78.T. C. Wen, C. Sivakumar and A. Gopalan, “In situ, UV-Vis spectro- electrochemical studies on the initial stages of copolymerization of aniline with diphenylamine-4-sulphonic acid”, Electrochimica Acta 46 (2001) 1071–1085 [Link]
• 77.M. S. Wu and T. C. Wen, “The addition of Al2O3 in composite electrolytes consisting of polyethylene oxide and polytetramethylene glycol based waterborne polyurethane”, Journal of the Chinese Institute of Chemical Engineers 32 (2001) 47–56
• 76.H. L. Wang, H. M. Kao, M. Digar and T. C. Wen, “FTIR and solid state 13C NMR studies on the interaction of lithium cations with polyether poly(urethane urea)”, Macromolecules 34 (2001) 529–537
• 75.C. Sivakumar, T. Vasudevan, A. Gopalan and T. C. Wen, “Chemical oxidative polymerization and in situ spectroelectrochemical studies of a sulfonated aniline derivative by UV-Visible spectroscopy”, Industrial & Engineering Chemistry Research 40 (2001) 40.
• 74.M. Digar and T. C. Wen, “Role of PVME on the ionic conductivity and morphology of a TPU based electrolyte”, Polymer 42 (2001) 71.
• 73.T. C. Wen and W. C. Chen, “Gelled composite electrolyte comprising thermoplastic polyurethane and poly(ethylene oxide) for lithium batteries”, Journal of Power Sources 92 (2001) 139–148 [Link]
• 72.M. Digar and T. C. Wen, “Ionic conductivity and morphological study of a thermoplastic polyurethane based electrolyte comprising of mixed soft segments”, Polymer 32 (2000) 921.
• 71.L. C. Chiang, J. E. Chang and T. C. Wen, “Destruction of refractory humic acid by electromechanical oxidation process”, Water Science and Technology 42 (2000) 225–232 [Link]
• 70.T. T. Cheng and T. C. Wen, “Ternary polymer composites for gel electrolytes via a mixture design approach”, Journal of Chinese Institute of Chemical Engineers 31 (2000) 533.
• 69.H. L. Wang, H. M. Kao and Ten. C. Wen, “Direct 7Li NMR spectral evidence for different Li+ local environments in a polyether poly(urethane-urea) electrolyte”, Macromolecules 33 (2000) 6910.
• 68.V. Rajendran, A. Gopalan, T. Vasudevan, W. C. Chen and T. C. Wen, “Growth behaviour of polyaniline films deposited by pulse potentiostatic method”, Materials Chemistry and Physics 65 (2000) 320.
• 67.V. Rajendran, A. Gopalan, T. Vasudevan and T. C. Wen, “Electrochemical copolymerization of diphenylamine with aniline by a pulse potentiostatic method”, Journal of the Electrochemical Society 147 (2000) 3014–3020 [Link]
• 66.C. H. Yang, C. C. Lee and T. C. Wen, “Hypochlorite generation on Ru-Pt binary oxide for treatment of dye wastewater”, Journal of Applied Electrochemistry 30 (2000) 1043.
• 65.T. C. Wen, H. S. Tseng and Z. B. Lu, “Co-solvent effect on conductivity of composite electrolytes comprising polyethylene oxide and polytetramethylene glycol-based waterborne polyrethane via a mixture design approach”, Solid State Ionics 134 (2000) 291.
• 64.T. C. Wen, S. S. Luo and C. H. Yang, “Ionic conductivity of polymer electrolytes derived from various diisocyanate-based waterborne Polyurethanes”, Polymer 41 (2000) 6755.
• 63.T. C. Wen and W. C. Chen, “Blending thermoplastic polyurethanes and poly(ethylene oxide) for composite electrolytes via a mixture design approach”, Journal of the applied polymer science 77 (2000) 680.
• 62.T. C. Wen, H. S. Tseng and T. T. Cheng, “Composite electrolytes comprising polytetramethylene/Polypropylene glycol-Based waterborne polyurethanes and polyethylene oxide via a mixture design approach”, Industrial & Engineering Chemistry Research 39 (2000) 72.
• 61.T. C. Wen, C. H. Hu and C. C. Hu, “Voltammetric investigation of nickel-platinum codeposits for methanol oxidation in KOH solutions”, Journal of the Chinese Institute of Chemical Engineers 30 (1999) 51.
• 60.T. C. Wen and Y. J. Wang, “Application of experimental design to the conductivity optimization for waterborne polyurethane electrolytes”, Industrial & Engineering Chemistry Research 38 (1999) 1415.
• 59.T. C. Wen, Y. J. Wang, T. T. Cheng and C. H. Yang, “The effect of DMPA units on ionic conductivity of PEG-DMPA-IPDI waterborne polyurethane as single-ion electrolytes”, Polymer 40 (1999) 3979.
• 58.T. C. Wen, M. S. Wu and C. H. Yang, “Spectroscopic investigations of poly(oxypropylene)glycol-based waterborne polyurethane doped with lithium perchlorate”, Macromolecules 32 (1999) 2712–2720.
• 57.C. H. Yang, H. J. Yang, T. C. Wen, M. S.Wu and J. S. Chang, “Mixture design approaches to IPDI-H6XDI-XDI ternary diisocyanate-based waterborne polyurethanes”, Polymer 40 (1999) 871.
• 56.C. H. Yang and T. C. Wen, “Electrodeposited platinum microparticles in sulfonate-polyaniline film for the electrosorption of methanol and sorbitol”, Electrochimica Acta 44 (1998) 207–218 [Link]
• 55.T. T. Cheng and T. C. Wen, “Novel waterborne polyurethane based electrolytes for lithium batteries – (IV) The influence of DMPA/PEG ratios on conductivity”, Journal of the Chinese Institute of Chemical Engineers 29 (1998) 327.
• 54.S. S. Luo, T. T. Cheng and T. C. Wen, “Influences of adding LiCF3SO3-PC on the conductivity of H12MDI based WPU electrolytes”, Journal of the Chinese Institute of Chemical Engineers 29 (1998) 239.
• 53.H. J. Tien, Y. R. Hwang and T. C. Wen, “Syntheses of new azo dyestuff containing a sydnone ring”, Journal of the Chinese Chemical Society 45 (1998) 209.
• 52.T. C. Wen, J. S. Chang and T. T. Cheng, “An investigation of composite electrolytes by mixing polyethylene oxide- and polytetramethylene glycol-based waterborne polyurethane with the addition of LiClO4/propylene carbonate”, Journal of the Electrochemical Society 145 (1998) 3450–3455 [Link]
• 51.T. T. Cheng and T. C. Wen, “Novel waterborne polyurethane based electrolytes for lithium batteries–(III) Interfacial behavior between electrolyte and lithium”, Journal of the Chinese Institute of Chemical Engineers 29 (1998) 319.
• 50.T. T. Cheng and T. C. Wen, “Novel waterborne polyurethane based electrolytes for lithium batteries –(II) The effect of adding LiCF3SO3-PC”, Solid State Ionics 107 (1998) 161.
• 49.T. T. Cheng and T. C. Wen, “Novel waterborne polyurethane based electrolytes for lithium batteries –(I) Tailor-made polymer”, Journal of Electroanalytical Chemistry 459 (1998) 99.
• 48.T. C. Wen and H. M. Kang, “Co-Ni-Cu ternary spinel oxide-coated electrodes for oxygen evolution in alkaline solution”, Electrochimica Acta 43 (1998) 1729–1745 [Link]
• 47.C. C. Hu and T. C. Wen, “Effects of the nickel oxide on the hydrogen evolution and para-nitroaniline reduction at Ni-deposited graphite electrodes in NaOH”, Electrochimica Acta 43 (1998) 1747–1756 [Link]
• 46.H. J. Tien, Y. R. Hwang, C. C. Hu and T. C. Wen, “Electrosynthesis of 4,4'-dinitroazobenzene from para-nitroaniline in acetonitrile/water media”, Journal of the Chinese Institute of Chemical Engineers 28 (1997) 399.
• 45.C. H. Yang and T. C. Wen, “Modified polyanilines via electrochemical copolymerization of aniline and para-phenylenediamine derivatives”, Journal of the Electrochemical Society 144 (1997) 2078–2085 [Link]
• 44.C. H. Yang, Y. J. Li and T. C. Wen, “Mixture design approach to PEG-PPG-PTMG ternary polyol-based waterborne polyurethanes”, Industrial and Engineering Chemistry Research 36 (1997) 1614.
• 43.C. C. Hu, Y. S. Lee and T. C. Wen, “The physicochemical/electrochemical properties of binary Ni-Co oxides”, Materials Chemistry and Physics 48 (1997) 246.
• 42.Y. J. Li, C. C. Chang and T. C. Wen, “A mixture design approach to thermally prepared Ir-Pt-Au ternary electrodes for oxygen reduction in alkaline solution”, Journal of Applied Electrochemistry 27 (1997) 227.
• 41.C. C. Chang and T. C. Wen, “Kinetics of oxygen reduction at RuO2-coated titanium electrode in alkaline solution”, Journal of Applied Electrochemistry 27 (1997) 355–363 [Link]
• 40.C. C. Chang, T. C. Wen and H. J. Tien, “Kinetics of oxygen reduction at oxide-derived Pd electrodes in alkaline solution”, Electrochimica Acta 42 (1997) 557–565 [Link]
• 39.T. C. Wen and Y. J. Li, “Electrochemical behavior of gold electrodeposits with and without organic compounds in KOH”, Materials Chemistry and Physics 48 (1997) 191.
• 38.C. C. Chang and T. C. Wen, “An investigation of thermally prepared electrodes for oxygen reduction in alkaline solution”, Materials Chemistry and Physics 47 (1997) 203.
• 37.Y. Y. Li and C. C. Chang and T. C. Wen, “Application of statistical experimental strategies to H2O2 production on Au/graphite in alkaline solution”, Industrial and Engineering Chemistry Research 35 (1996) 4767.
• 36.C. C. Hu and T. C. Wen, “Voltammetric investigation of palladium oxides-III: effects of hydration and pH on the electrocatalytic properties of Pd(IV)/Pd(II) and the reduction behavior of palladous oxide”, Electrochimica Acta 41 (1996) 1505–1514 [Link]
• 35.C. C. Hu, C. Y. Lin and T. C. Wen, “Textural and electrochemical properties of watts nickel deposited titanium electrodes”, Materials Chemistry and Physics 44 (1996) 233.
• 34.C. C. Chang and T. C. Wen, “Kinetics of oxygen reduction at IrO2-coated titanium electrode in alkaline solution”, Journal of the Electrochemical Society 143 (1996) 1485–1491 [Link]
• 33.Y. S. Lee, C. C. Hu and T. C. Wen, “Oxygen evolution on Co-Cu-Zn ternary spinel oxide-coated electrodes in the akaline solution - Integration of statistical, electrochemical and textural approach”, Journal of the Electrochemical Society 143 (1996) 1218–1225 [Link]
• 32.C. C. Hu, C. H. Lee and T. C. Wen, “Oxygen evolution and hypochlorite production on Ru-Pt binary oxides”, Journal of Applied Electrochemistry 26 (1996) 72.
• 31.C. C. Chang and T. C. Wen, “Oxygen reduction at IrO2-coated titanium electrode in alkaline solution”, Bulletin of Electrochemistry 11 (1995) 430.
• 30.L. C. Chiang, J. E. Chang and T. C. Wen, “Electrochemical oxidation process for the treatment of coke-plant wastewater”, Journal of Environmental Science and Health A30 (1995) 7531.
• 29.C. C. Hu and Te. C. Wen, “Voltammetric investigation of palladium oxides-I: Their formation/reduction behavior during glucose oxidation in KOH”, Electrochimica Acta 40 (1995) 495–503 [Link]
• 28.L. C. Chiang, J. E. Chang and T. C. Wen, “Indirect oxidation effect in electrochemical oxidation treatment of landfill leachate”, Water Research 29 (1995) 671–678.
• 27.S. M. Lin and T. C. Wen, “Electrocatalytic oxidation of benzyl alcohol in alkaline medium on RuO2-coated titanium electrode”, Journal of Applied Electrochemistry 24 (1995) 73–79
• 26.C. S. Yang, S. M. Lin and T. C. Wen, “Application of statistical experimental strategies to the process optimization of waterborne polyurethane”, Polymer Engineering and Science, 35 (1995) 722.
• 25.L. C. Chiang, J. E. Chang and T. C. Wen, “Electrochemical treatability of refractory pollutants in landfill leachate”, Hazardous Waste & Hazardous Materials 12 (1995) 71.
• 24.C. C. Hu and T. C. Wen, “Effects of pH and anion on hydrogen sorption/desorption at/within oxide-derived Pd electrodes”, Journal of the Electrochemical Society 142 (1995) 1376–1383 [Link]
• 23.C. C. Hu and T. C. Wen, “Voltammetric investigation of hydrogen sorption/desorption at/within oxide-derived Pd electrodes in NaOH and H2SO4”, Journal of the Electrochemical Society 141 (1994) 2996–3001 [Link]
• 22.C. C. Hu and T. C. Wen, “Voltammetric investigation of palladium oxides-II: Their formation/reduction behavior during glucose oxidation in KOH”, Electrochimica Acta 39 (1994) 2763–2771 [Link]
• 21.T. C. Wen, S. M. Lin and J. M. Tsai, “Electrooxidation of benzyl alcohol at high surface area nickel (NiSx) electrodes in alkaline solution”, Journal of Applied Electrochemistry 24 (1994) 449.
• 20.S. M. Lin and T. C. Wen, “Applying simplex design to voltammetric charge of ternary Ir-Ru-Sn oxide-coated titanium electrodes”, Bulletin of Electrochemistry 10 (1994) 101.
• 19.S. M. Lin and T. C. Wen, “Experimental strategy-application of taguchi's quality engineering method to zinc phosphate coating uniformity” Plating & Surface Finishing 81 (1994) 59.
• 18.T. C. Wen, S. M. Lin and J. M. Tsai, “Sulfur content and the hydrogen evolving activity of NiSx deposits using statistical experimental strategies”, Journal of Applied Electrochemistry 24 (1994) 233.
• 17.S. M. Lin and T. C. Wen, “Electrochemical synthesis and properties of polyaniline on thermally prepared RuO2 electrodes”, Electrochimica Acta 39 (1994) 393–400 [Link]
• 16.C. S. Yang and T. C. Wen, “Polyaniline derivative with external and internal doping via electrochemical copolymerization of aniline and 2,5-diaminobenzensulfonic acid on IrO2-coated titanium electrode”, Journal of the Electrochemical Society 141 (1994) 2624–2632 [Link]
• 15.C. S. Yang and T. C. Wen, “Electrochemical copolymerization of aniline and para-phenylenediamine on IrO2-coated titanium electrode”, Journal of Applied Electrochemistry 24 (1994) 166–178.
• 14.T. C. Wen, S. S. Ching and J. J. Lay, “A kinetic model of a recircualted upflow anaerobic sludge blanket treating phenolic wastewater”, Water Environment Research 66 (1994) 794.
• 13.T. C. Wen and C. C. Chang, “The structural changes of PbO2 anodes during ozone evolution”, Journal of the Electrochemical Society 140 (1993) 2764–2770 [Link]
• 12.T. C. Wen, C. C. Hu and Y. J. Li, “The redox behavior of electroless Ni/PTFE deposits in KOH”, Journal of the Electrochemical Society 140 (1993) 2554–2558 [Link]
• 11.S. M. Lin and T. C. Wen, “Oxygen evolution on Ir-Ru-Sn ternary oxide-coated electrodes in H2SO4 solution - An approach employing statistical experimental strategy ”, Journal of the Electrochemical Society 140 (1993) 2265–2271 [Link]
• 10.S. M. Lin and T. C. Wen, “A mixture design approach to the service life and the oxygen evolving catalytic activity of Ru-Sn-Ti ternary oxide coated electrodes”, Journal of Applied Electrochemistry 23 (1993) 487.
• 9.T. C. Wen and C. C. Hu, “Cyclic voltammetric investigation of PdO-coated titanium electrode in H2SO4”, Journal of the Electrochemical Society 140 (1993) 988–995 [Link]
• 8.T. C. Wen and C. C. Chang, “Electrolytic production of ozone in phosphate solution using an orthogonal-array experimentation”, Journal of the Chinese Institute of Chemical Engineers 23 (1992) 397.
• 7.T. C. Wen and C. C. Hu, “The compositional effect on the electrocatalytic activity of Ru-Pd-Sn oxide-coated electrode for oxygen evolution in H2SO4”, Journal of the Chinese Institute of Chemical Engineers 23 (1992) 389.
• 6.T. C. Wen and S. M. Lin, “Aluminum coloring using robust design”, Plating & Surface Finishing 79 (1992) 64.
• 5.T. C. Wen and C. C. Hu, “Hydrogen and oxygen evolutions on Ru-Ir binary oxides”, Journal of The Electrochemistry Society 139 (1992) 2158–2163 [Link]
• 4.T. C. Wen and S. M. Lin, “Corrosion inhibitors for the absorption refrigeration system”, Journal of the Chinese Institute of Chemical Engineers 22 (1991) 311.
• 3.S. M. Lin and T. C. Wen, “The effect of additives on the internal stress of nickel deposits from watts bath”, Plating & Surface Finishing 78 (1991) 70.
• 2.T. C. Wen, “Electrodeposited PbO2 anode for the decomposition of low concentrations of cyanide”, Plating & Surface Finishing 77 (1990) 54.
• 1.T. C. Wen, M. G. Wei and K. L. Lin, “Electrocrystallization of PbO2 deposits in the presence of additives”, Journal of the Electrochemical Society 137 (1990) 2700–2702 [Link]

指導畢業之碩、博士班學生論文名稱

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