高分子与材料化学系
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李廷希
发布时间:2019-11-06    来源:威廉希尔中文网站    点击:[]
           
           
李廷希
职称:教授
通讯地址:青岛市黄岛区前湾港路579号
邮编:266590
电话:
Email:litx@sdust.edu.cn
               
教育背景
1983.09-1987.07河南大学、学士
1995.04-1997.03日本仙台东北外国语学院、日语一级
1997.04-2000.03日本国立东北大学、硕士
2000.04-2003.03日本国立山形大学、博士
工作履历
1987.07-1995.03 河南大学化学化工系、助教、讲师
2001.04-2004.03 日本山形县立商业高校、非常勤讲师
2002.10-2004.08 日本经济产业省光产业技术振兴机构、研究员
2004.09-至今 威廉希尔中文网站、教授
(其中2005.03-2015.12威廉希尔中文网站副院长,2018.09-2020.08兼任青岛市服务企业工作队派驻城阳区专家)
               
开设课程
(1)有机波谱分析
(2)聚合物分析测试与表征
(3)高分子材料概论
(4)功能高分子材料
(5)有机材料化学
研究领域
(1)光电功能高分子材料
(2)有机硅材料
(3)高分子材料加工助剂
科研项目
(1) 中国科学院开放基金项目: 聚合物基电子封装材料(2018.09-)
(2) 军工预研项目: 类XX示假缩比模型(2018.09-)
(3) 产业合作项目: 高分子加工助剂制备(2018.09-)
学术兼职
(1) WilliamHill官网学位委员会材料分会主席
(2) 中国氟硅有机材料工业协会专家委员会委员
(3) 科技部国际科技合作项目评审专家
(4) 教育部研究生教育通讯评议专家
(5) 教育部归国留学基金评审专家
(6) 《胶体与聚合物》杂志编委
奖励与荣誉
2014年以来奖励:
(1)2014年山东省高等学校自然科学三等奖,排名第一
(2)2015年山东省研究生创新成果三等奖,排名第一
(3)2015年中国煤炭工业教育协会优秀教学成果三等奖,排名第一
(4)2016年山东省高等学校自然科学三等奖,排名第二
(5)2014年山东省高校优秀教学成果三等奖,排名第三
荣誉:
(1) 2012年度WilliamHill官网教学名师
(2) 2017年度WilliamHill官网教学名师
(3) 2012年度青岛市归国人员创新创业杰出成就奖
学术成果
教材论著:
(1) 《功能材料导论》中南大学出版,教育部规划教材
(2) 《有机电致发光-从材料到器件》北京大学出版社,国家教材基金委资助世界名著翻译


2016年以来发表的代表性论文:
[1]Polyaniline/montmorillonite nanocomposites as an effective flame retardant and smoke suppressant for polystyrene,Synthetic Metals, 2016, 221: 28-38.
[2]Preparation and characterization of 8-hydroxyquinoline aluminum/polypyrrole core-shell composites, Journal of Photopolymer Science and Technology, 2016, 29: 25-30.
[3]Synthesis and characterization of conductive polyaniline nanocomposite containing fluorene, High Performance Polymers, 2016, 29: 1192-1198.
[4]Low cost, high performance flexible asymmetric supercapacitor based on modified filter paper and an ultra-fast packaging technique, RSC Advances, 2016, 6: 83564-83572.
[5]Waste to wealth: A sustainable and flexible supercapacitor based on office waste paper electrodes, Journal of Electroanalytical Chemistry, 2017, 786: 28-34.
[6]Ultralow percolation threshold and enhanced electromagnetic interference shielding in poly(l-lactide)/multi-walled carbon nanotube nanocomposites with electrically conductive segregated networks, Journal of Materials Chemistry C, 2017, 5: 9359-9369.
[7]A graphene quantum dot decorated SrRuO3 mesoporous film as an efficient counter electrode for high-performance dye-sensitized solar cells, Journal of Materials Chemistry A, 2017, 5: 17848-17855.
[8]Facile synthesis of water soluble reduced graphene oxide with a high concentration and its application in printable micro-supercapacitors, Sustainable Energy & Fuels, 2017, 1: 1601-1610.
[9]Epoxy resin/POSS nanocomposites with toughness and thermal stability, Journal of Photopolymer Science and Technology, 2017, 30: 25-31.
[10]8-hydroxyquinoline aluminum-polypyrrole and 8-hydroxyquinoline aluminum-polyaniline composites: A comparative study on the preparation and property, Synthetic Metals, 2017,232:159-166.
[11]Improving the thermal conductivity and mechanicalproperty of epoxy composites by introducingpolyhedral oligomeric silsesquioxane-grafted graphene oxide,Polymer Composites,2018, 39(53):1890-1899.
[12]Layer-by-layer grafting CNTs onto carbon fibers surface for enhancingthe interfacial properties of epoxy resin composites,Composites Science and Technology, 2018,154: 28-36.
[13]Continuously prepared highly conductive and stretchable SWNT/MWNT synergistically composited electrospun thermoplastic polyurethane yarns for wearable sensing, Journal of Materials Chemistry C, 2018, 6 (9): 2258-2269.
[14]An overview of metamaterials and their achievements in wireless power transfer, Journal of Materials Chemistry C, 2018, 6 (12): 2925-2943.
[15]Silica microsphere templated self-assembly of a three-dimensional carbon network with stable radio-frequency negative permittivity and low dielectric loss, Journal of Materials Chemistry C, 2018, 6 (19): 5239-5249.
[16]Controllable Cross-Linking Anion Exchange Membranes with Excellent Mechanical and Thermal Properties,Macromolecular materials and engineering, 2018, 303 (3): 1700462.
[17]Overview of the Experimental Trends in Water-AssistedInjection Molding, Macromolecular materials and engineering, 2018, 303 (8): 1800035.
[18]Non-covalently functionalized graphene strengthened poly(vinyl alcohol),  Materials and Design, 2018, 139: 372-379.
[19]Ionic liquid-assisted synthesis of Yb3+-Tm3+ codoped Y7O6F9 petal shaped microcrystals with enhanced upconversion emission, Materials Research Bulletin , 2018, 103: 19-24.
[20]In situ grown nickel selenide on graphene nanohybrid electrodes for high energy density asymmetric supercapacitors, Nanoscale, 2018,10: 20414-20425.
[21]Towards sustainable ultrafast molecular-separationmembranes: From conventional polymers to emergingmaterials, Progress in Materials Science, 2018, 92: 258-283.

2016年以来授权发明专利:
(1)一种Vi-POSS-ZnO/EP抗紫外增韧复合材料及其制备方法,ZL201510382593.7
(2)一种有机电致发光纳米复合材料及其制备方法和应用,ZL201410252919.X

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