林慶炫(Ching-Hsuan Lin)
職稱   特聘教授
電話 (04)22850180
E-mail   [email protected]
辦公室  407
個人網址   http://lin.pcbcenter.com.tw/index.php
最高學歷  國立成功大學 博士
研究領域 5G通訊印刷電路板基材, 非鹵素阻燃技術, 塑膠升級回收,綠色化學,可回收熱固性複合材料
簡要經歷

國立中學大學化學工程系主任(2019~2021)
國立中興大學特聘教授二(2019~)
國立中興大學特聘教授三(2011~2019)
加州大學Santa Barbara分校 訪問學者 (2018-2019)
國立中興大學教授 (2008~2011)
國立中興大學副教授 (2005-2008)
國立中興大學助理教授 (2003-2005)
國立雲林科技大學助理教授 (2002-2003)
崑山科技大學助理教授 (1999-2002)
國立成功大學專任助教 (1996-1999)

榮譽:
109年~ 國立中興大學「特聘教授二」
109年 科技部傑出研究獎
109年 第十七屆國家新創獎
109年 第一屆永光化學綠色化學獎
109年 第一屆長春人造樹脂 「卓越貢獻獎」
興大學工學院 109學年度「產學合作優良獎」
興大學工學院 108學年度「產學合作優良獎」
興大學工學院 107學年度「產學合作特優獎」
國立中興大學104學年度 優良導師獎
興大學工學院 104學年度「產學合作優良獎」
國立中興大學104~105學年度「特聘教授三」
104年國立成功大學85週年「傑出校友」
103年第四屆「李謀偉福聚教育基金會學術研究傑出教授獎」
國立中興大學102~103學年度「特聘教授三」
國立中興大學101年度學術研究績效獎勵研究績優獎
國立中興大學工學院101學年度「產學合作優良獎」
國立中興大學100~101學年度「特聘教授三」
國立中興大學 100學年度「產學合作技術移轉獎」傑出獎
中華民國高分子學會98年度傑出高分子青年科技獎
國防部軍備局中山科學研究院98年度學合案績優計畫獎
國立中興大學98年度教學特優教師
行政院國科會98年度技術移轉個案獎勵
國立中興大學97年度傑出青年教師
行政院國科會96年度吳大猷先生紀念獎
行政院國科會96年度技術移轉個案獎勵
國立中興大學96年度研發成果技術移轉績優獎
台灣化學工程師協會95年度學術勵進獎
行政院國科會94年度傑出技術轉移獎
行政院國科會93年度傑出技術轉移獎

 

 

 

教授科目
代表著作
A.期刊論文
  1. C. H. Chen, W. F. Shiao, M. Ariraman, C. H. Lin,* T.Y. Juang High-performance thermosets derived from acetovanillone-based reactive polyethers. Polymer 2018, 151, 307.
  2. C. M. Lin, C. H. Chen, C. H. Lin,* T. Y. Juang,High-performance bio-based benzoxazines derived from phosphinated biphenols and furfurylamine. European Polymer Journal.2018, 108, 48.
  3. C. H. Chen, C. H. Lin,* J.M. Hon, M. W. Wang, T. Y. Juang First halogen and phosphorus-free, flame-retardant benzoxazine thermosets derived from main-chain type bishydroxydeoxybenzoin-based benzoxazine polymers  .Polymer.2018,154, 35.
  4. C. H. Chen, Z. C. Gu, Y. L. Tsai, R. J. Jeng, C. H. Lin*.Identification of the reaction mechanism between phenyl methacrylate and epoxy and its application in preparing low-dielectric epoxy thermosets with flexibility.Polymer2018,140, 225.
  5. C. M. Lin, C. H. Chen, C. H. Lin,*W. C. Su, T. Y. Juang,Using Dicyclopentadiene-Derived Polyarylates as Epoxy Curing Agents To Achieve High Tg and Low Dielectric Epoxy Thermosets.    ACS Omega2018, 3,4295.
  6. C. H. Chen,C. H. Liu,M. Ariraman.C. H. Lin,* T.Y.Juang.Phosphinated Poly(aryl ether)s with Acetic/Phenyl Methacrylic/Vinylbenzyl Ether Moieties for High-Tg and Low-Dielectric Thermosets.ACS Omega2018, 3, 6031
  7. C. H. Chen, K. W. Lee; C. H. Lin,* T. Y. Juang.Low-Dissipation Thermosets Derived from Oligo(2,6-Dimethyl Phenylene Oxide)-Containing Benzoxazines.Polymers2018, 10, 411.
  8. C. H. Chen, K. W. Lee, C. H. Lin,* M. J. Ho, M. F. Hsu, S. J. Hsiang, N. K. Huang, T. Y. Juang.       Low Dielectric Polyetherimides Derived from Bis[4-(4-(4-aminophenoxy)-2-tert-butylphenoxy)phenyl] Sulfone and 4,4′-Bis[4-(4-aminophenoxy)-2-tert-butylphenoxy]perfluorobiphenyl.ACS OMEGA2018, 10, 27.
  9. C. H. Chen, C. H. Lin,* M. W. Wang, T. Y. Juang. High-Tg, Low-Dielectric Epoxy Thermosets Derived from Methacrylate-Containing Polyimides .Polymers    2017, 2, 4800.
  10. C. H. Lin,* Z. J. Chen, C. H. Chen, M. W. Wang, T. Y. Juang.Synthesis of a bisbenzylideneacetone-containing benzoxazine and its photo- and thermally cured thermoset.ACS OMEGA2017, 2, 3432
  11. C. H. Lin,* C. K. C. C. H. Chen, T. Y. Juang.Photo-sensitive benzoxazine II: chalconecontaining benzoxazine and its photo andthermal-cured thermoset.RSC Advances  2017, 7, 37844.
  12. M. W. Wang, C. H. Wu, R.J. Jeng,* C. H. Lin*.A strategy for preparing spirobichroman dianhydride from bisphenol A and its resulting polyimide with low dielectric characteristic.RSC Advances2017, 10 1039
  13. C. H. Lin,* Y. C.Chou, W. F. Shiao, M. W.Wang.High temperature, flame-retardant, and transparent epoxy thermosets prepared from an acetovanillone-based hydroxyl poly(ether sulfone) and commercial epoxy resins       .Polymer 2017, 97, 300
  14. M.W. Wang, C.H. Wu, S. A. Dai,* R. J. Jeng,* C. H. Lin*.Synthesis of poly(isopropenylphenoxy propylene carbonate) and its facile side-chain functionalization into hydroxy-polyurethanes. Journal of Polymer Science Part A: Polymer Chemistry 2017, 7, 1101.
  15. C. C. Huang,C. H. Lin,S. A. Dai*.Synthesis of poly(isopropenylphenoxy propylene carbonate) and its facile side-chain functionalization into hydroxy-polyurethanes.Polymer Science Part A: Polymer Chemistry2016, 54, 802.
  16. C. H. Lin*, Y. R. Wang, Y. R. Feng, M. W. Wang, T. Y. Juang, “ An approach of modifying poly(aryl ether ketone) to phenol-containing poly(aryl ether) and its application in preparing high-performance epoxy thermosets.,” Polymer, vol.54, pp.1612, 2013.
  17. H. C. Chang, S. L. Chang, C. H. Lin*, S. W. Chen, “Design and synthesis of unsymmetric phosphinated diamines for high-Tg, transparent polyimides. ,” Polymer, vol.53, pp.1651, 2012.
  18. H. C. Chang, C. H. Lin*, H. T. Lin, S. A. Dai, “Deprotection-free preparation of propargyl ether-containing phosphinated benzoxazine and the structure–property relationship of the resulting thermosets.,” J. Polym. Sci. Polym. Chem., vol.50, pp.1008-1017, 2012.
  19. H. C. Chang, C. H. Lin*, Y. w. Tian, Y R. Feng, L. H. Chan, “Synthesis of 9,9-bis(4-aminophenyl)fluorene-based benzoxazine and properties of its high-performance thermoset.,” J. Polym. Sci. Polym. Chem., vol.50, pp.2201-2210, 2012.
  20. H. C. Chang , H. T. Lin, C. H. Lin*, “Benzoxazine-based phosphinated bisphenols and their application in preparing flame-retardant, low dielectric cyanate ester thermosets.,” Polym. Chem., vol.3, pp.970, 2012.
  21. C. H. Lin*, S. L. Chang , T. Y. Shen , Y. S. Shih, H. T. Lin and C. F. Wang*, “Flexible polybenzoxazine thermosets with high glass transition temperatures and low surface free energies.,” Polym. Chem., vol.6, pp.935, 2012.
  22. P. J. Wang, C. H Lin*, S. L. Chang, and S. J. Shih*, “Facile efficient synthesis of a phosphinated hydroxyl diamine, and properties of its high-performance poly(hydroxyl imides) and polyimide/SiO2 hybrids.,” Polym. Chem., vol.3, pp.2867, 2012.
  23. C. H. Lin*, S. J. Juang, P. J. Wang, H. T. Lin, S. A. Dai, “Miscibility, microstructure, and thermal and dielectric properties of reactive blends of dicyanate ester and diamine-based benzoxazine.,” Macromolecules, vol.45, pp.7461, 2012.
  24. C. H. Lin*, S. L. Chang, T. P. Wei, “ High-Tg and transparent poly(ether sulfone)s based on phosphinated bisphenols.,” Macro. Chem. Phys., vol.212, pp.455-464, 2011.
  25. C. H. Lin*, S. L. Chang, P. W. Cheng, “Dietheramine from an alkaline-stable phosphinated bisphenol for soluble polyetherimides.,” Polymer, vol.52, pp.1241-1255, 2011.
  26. C. H. Lin*, S. L. Chang, P. W. Cheng, “Soluble high-Tg polyetherimides with good flame retardancy based on an asymmetric phosphinated etherdiamine.,” J. Polym. Sci. Polym. Chem., vol.49, pp.1331-1340, 2011.
  27. C. H. Lin*, H. T. Lin, Y. W.Tian, S. A. Dai, W. C. Su, “Preparation of Phosphinated Bisphenol from Acid-Fragmentationof 1,1,1-Tris(4-hydroxyphenyl)ethane and Its Application inHigh-Performance Cyanate Esters.,” J. Polym. Sci. Polym. Chem., vol.49, pp.4851-4860, 2011.
  28. S. L. Chang, C. H. Lin*, “Facile, one-pot synthesis of aromatic diamine-based benzoxazines and their advantages over diamines as epoxy hardeners.,” J. Polym. Sci. Polym. Chem., vol.48, pp.2430, 2010.
  29. C. H. Lin*, S. L. Chang, T. P. Wei, S. H. Ding, W. C. Su., “ Facile, One-pot Synthesis of Phosphinate-substituted Bisphenol A and its Alkaline-stable Diglycidyl Ether Derivative.,” PolymDegrad Stab., vol.95, pp.1167, 2010.
  30. C. H. Lin*, S. L. Chang, L. A. Peng, S. P. Peng, Y. H. Chuang., “Organo-soluble phosphinated polyimides from asymmetric diamines.,” Polymer., vol.51, pp.3899, 2010.
  31. C. H. Lin*, H. T. Lin, J. W. Sie, K. Y. Hwang, A. P. Tu, “Facile, One-Pot Synthesis of Aromatic Diamine-Based Phosphinated Benzoxazines and Their Flame-Retardant Thermosets.,” J. Polym. Sci. Polym. Chem., vol.48, pp.4555, 2010.
  32. C. H. Lin*, S. L. Chang, Y. T. Fang, H. J. Hwang, C. H Tsai., “Inexpensive Synthesis of 1,4-bis(4-aminophenoxy)-2- (6-oxido-6H-dibenz <1,2> oxaphosphorin-6-yl) phenylene and its oxygen-plasma resistant polyamides.,” Polymer( in press), 2010.
  33. H. T. Lin, C. H. Lin*, Y. M. Hu, W. C., “Su An Approach to Develop High-Tg Epoxy Resins for Halogen-Free Copper Clad Laminates.,” Polymer, vol.50, pp.5685, 2009.
  34. C. W. Chang, C. H. Lin*, P. W. Cheng, S. A. Dai, “Facile and Efficient Preparation of Phosphinate-functionalized Aromatic Diamines and Their High-Tg Polyimides.,” J. Polym. Sci. Polym. Chem., vol.47, pp.2486, 2009.
  35. C. H. Lin*, H. T. Lin, S. L. Chang, H. J. Huang, Y. M. Hu, Y. R. Taso, W. C. , “SuBenzoxazines with tolyl, p-hydroxyphenyl or p-carboxyphenyl linkage and the Structure-Property Relationship of Resulting Thermosets.,” Polymer., vol.50, pp.2264, 2009.
  36. C. W. Chang, C. H. Lin*, H. T. L. H. J. Huang, K. Y. Hwang, A. P. Tu. , “Development of an Aromatic Triamine-based Flame-Retardant Benzoxazine and Its High-Performance Copolybenzoxazines. ,” Eur. Polym. J., vol.45, pp.680, 2009.
  37. C. H. Lin*, T. L. Lin, S. L. Chang, S. A. Dai, R. J. Cheng, K. Y. Hwang, A. P. Tu, W. C. Su , “Facile Preparation of Novel Epoxy Curing Agents and Their High-performance Thermosets.,” J. Polym. Sci. Polym. Chem., vol.46, pp.7898, 2008. (SCI)
  38. C. H. Lin*, S. L. Chang, H. H. Lee, H. C. Chang, K. Y. Hwang, A. P. Tu, W. C. Su., “Fluorinated Benzoxazines and the Structure-Property Relationship of Resulting Polybenzoxazines. ,” J. Polym. Sci. Polym. Chem., vol.46, pp.4970, 2008. (SCI)
  39. C. H. Lin*, S. L. Chang, C. W. Hsieh, H. H. Lee, “Aromatic Diamine-based Benzoxazines and Their High Performance Thermosets.,” Polymer., vol.49, pp.1220, 2008. (SCI)
  40. C. H. Lin*, C. H. Lin, “Synthesis and Properties of Polyimides derived from 1,4-Bis(4-aminophenoxy)-2-(6-oxido-6H-dibenz <1,2> oxaphosphorin-6-yl) phenylene. ,” J. Polym. Sci. Polym. Chem., vol.45, pp.2897, 2007. (SCI)
  41. C. H. Lin*, T. Y. Hwang, Y. R. Taso, T. L. Lin, “Phosphorus-containing Epoxy Curing Agents via Imine Linkage.,” Macro. Chem. Phys., vol.208, pp.2628, 2007.
  42. C. H. Lin*, C. C. Feng, T. Y. Hwang,, “Preparation, Thermal Properties, Morphology, and Microstructure of phosphorus-containing Epoxy/SiO2 and Polyimide/SiO2.,” Eur. Polym. J., vol.43, 2007. (SCI)
  43. C. H. Lin*, K. Z. Yang, T. S. Leu, C. H. Lin and J. W. Sie, “Synthesis, characterization and properties of novel epoxy resins and cyanate esters. ,” J. Polym. Sci. Polym. Chem., vol.44, pp.3487, 2006. (SCI)
  44. C. H. Lin*, S. X. Cai, T. S. Leu, T. Y. Hwang and H. H. Lee, “Synthesis and properties of flame-retardant benzoxazines by three approaches.,” J. Polym. Sci. Polym. Chem., vol.44, pp.3454, 2006. (SCI)
  45. C. H. Lin * , K. Z. Yang, T. S. Leu, C. H. Lin and J. W. Sie, “Synthesis, characterization and properties of novel epoxy resins and cyanate esters,” J. Polym. Sci. Polym. Chem , vol. 44, pp.3487, 2006.
  46. C. H. Lin * , S. X. Cai, T. S. Leu, T. Y. Hwang and H. H. Lee, “Synthesis and properties of flame-retardant benzoxazines by three approaches,” J. Polym. Sci. Polym. Chem , vol.44, pp.3454, 2006.
  47. C. H. Lin * , S. X. Cai and C. H. Lin, “Flame-Retardant Epoxy Resins with High Glass-Transition Temperatures. II. Using a Novel Hexafunctional Curing Agent: 9,10-Dihydro-9-oxa-10-phosphaphenanthrene 10-yl-tris(4-aminophenyl) methane ,” J. Polym. Sci. Polym. Chem , vol.43, pp.5971, 2005.
  48. S. X. Cai and C. H. Lin *, “Flame-Retardant Epoxy Resins With High Tg from a Novel Tri-functional Curing Agent: Dopotriol,” J. Polym. Sci. Polym. Chem , vol.43, pp.2862, 2005.
  49. C. H. Lin*, S. X. Cai and C. H. Lin., “Flame-Retardant Epoxy Resins with High Glass-Transition Temperatures. II. Using a Novel Hexafunctional Curing Agent: 9,10-Dihydro-9-oxa-10-phosphaphenanthrene 10-yl-tris(4-aminophenyl) methane.,” J. Polym. Sci. Polym. Chem., vol.43, pp.5971, 2005. (SCI)
  50. S. X. Cai and C. H. Lin*, “Flame-Retardant Epoxy Resins With High Tg from a Novel Tri-functional Curing Agent: Dopotriol,” J. Polym. Sci. Polym. Chem., vol.43, pp.2862, 2005. (SCI)