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个人简历
1998.09―2002.07 威廉希尔 本科
2002.09―2005.04 威廉希尔 硕士
2005.07―2011.08 合肥安默飞科技有限公司 研发工程师 技术部主管
2011.09―2014.05 中国科学技术大学 博士
2014.06―2016.12 威廉希尔 讲师,硕士生导师
2017.01至今 威廉希尔 副教授,硕士生导师
2017.09―2018.09 University of Massachusetts Amherst 访问学者
主要研究领域、方向
硕士生招生专业:材料学(学术型);材料与化工(专业型)
目前的研究方向:
1) 动态交联高分子智能材料的创制和功能化机制;
2) 生物可降解高分子及其复合材料;
3) 具有电磁屏蔽、吸波和导热功能的高分子复合材料;
4) 复杂高分子体系的流变学研究。
主讲本科生课程:《高分子物理》、《涂料及粘接剂》
主讲研究生课程:《工程伦理》
研究成果(代表性成果)
(1)在Materials Horizons,Macromolecules, ACS Applied materials & interfaces等国内外学术期刊上发表论文40余篇,申请发明专利9项,已授权专利4项。
(2)水性涂料(空调铝箔亲水涂料、玻璃装饰涂料、金属卷材防腐蚀涂料)的研发和产业化。
目前承担科研项目
1、主持中央高校基本科研业务费专项资金项目, 在研。
2、主持企业委托项目,在研。
3、主持国家自然科学基金(青年科学基金)项目:“熔融态构筑界面sc-PLA及其对PLA/CNC复合材料结构与性能的调控机理研究”,51503055,已结题。
4、主持安徽省自然科学基金面上项目:“聚乳酸导电泡沫复合材料的制备与结构调控及其电磁屏蔽性能研究”,已结题。
5、主持安徽省科技重大专项项目,已结题
6、主持博士后科学基金项目,已结题。
获奖及专利情况
专利:
授权发明专利4项(第一发明人)
(1)一种纳米纤维素改性聚乳酸复合材料及其制备方法,ZL 201910149420.9
(2)一种聚乳酸改性材料的制备方法,ZL 201910150211.6
(3)一种无卤阻燃辐照交联电缆料及其制备方法,ZL201711112169.6
(4)一种聚氨酯环氧树脂丙烯酸酯三元共聚树脂纳米水分散液的制备方法,ZL201410503030.4
著作论文(代表作)
1) Fang H.G.*(方华高), Ye W.J., Yang K.J., Song K., Wei H.B., Ding, Y.S.* “Vitrimer chemistry enables epoxy nanocomposites with mechanical robustness and integrated conductive segregated structure for high performance electromagnetic interference shielding” Composites Part B-Engineering, 2021, 215, 108782.
2) Song K., Ye W.J., Gao X.C., Fang H.G.*(方华高), Zhang Y.Q., Zhang Q., Li X.L., Yang S.Z., Wei H.B.*, Ding, Y.S.* “Synergy between dynamic covalent boronic ester and boron–nitrogen coordination: strategy for self-healing polyurethane elastomers at room temperature with unprecedented mechanical properties” Materials Horizons, 2021, 8, 216-223.
3) Fang H.G.*(方华高), Ye W.J., Ding Y.S., Winter H. H.* “Rheology of the Critical Transition State of an Epoxy Vitrimer” Macromolecules, 2020, 53, 4855-4862.
4) Fang H.G.* (方华高), Wang S.L., Ye W.J., Chen X., Wang X.H., Xu P., Li X.L., Ding Y.S.* “Simultaneous improvement of mechanical properties and electromagnetic interference shielding performance in eco-friendly polylactide composites via reactive blending and MWCNTs induced morphological optimization”, Composites Part B-Engineering, 2019, 178, 107452.
5) Fang H.G.* (方华高), Chen X., Wang S.L., Cheng S., Ding Y.S.* “Enhanced mechanical and oxygen barrier performance in biodegradable polyurethanes by incorporating cellulose nanocrystals with interfacial polylactide stereocomplexation”, Cellulose, 2019, 26, 9751-9764.
6) Xie Q.Z., Fang H.G.* (方华高), Wang S.L., Chen X., Zhou Y.Y., Li X.L., Cheng S., Ding Y.S.* “Thermal stability and crystallization behavior of cellulose nanocrystals and their poly(L-lactide) nanocomposites: effects of surface ionic group and poly(D-lactide) grafting”, Cellulose , 2018, 25, 6847–6862.
7) Fang H.G.* (方华高), Wang H.L., Yu J.T., Wei H.B., Wang X.H., Ding Y.S.* “Largely improved mechanical properties of a biodegradable polyurethane elastomer via polylactide stereocomplexation”, Polymer, 2018, 137, 1-12.
8) Fang H.G.* (方华高), Xie Q.Z., Wei H.B., Xu P., Ding Y.S.* “Physical gelation and macromolecular mobility of sustainable polylactide during isothermal crystallization”, Journal of Polymer Science Part B: Polymer Physics, 2017, 55, 1235-1244.
9) Fang H.G.* (方华高), Wang H.L., Sun J., Wei H.B., Ding Y.S.* “Tailoring elastomeric properties of waterborne polyurethane by incorporation of polymethyl methacrylate with nanostructural heterogeneity”, RSC Advances, 2016, 6, 13589-13599.
10) Li Y., Fang H.G.* (方华高), Zhang D., Bahader A., Zhen B., Xu P., Ding Y.S.* “Synergetic effects of PEG arm and ionic liquid moiety contained in the tri-arm star-shaped oligomer on the crystallization behaviors of poly(lactic acid)”, Journal of Thermal Analysis and Calorimetry, 2016, 125, 849~860.
11) Fang H.G. (方华高),Jiang F., Wu Q.H., Ding Y.S.*, Wang, Z.G.* “Super-tough polylactide materials prepared through in-situ reactive blending with PEG-based diacrylate monomer” ACS Applied Materials & Interfaces, 2014, 6, 13552-13563.
12) Fang H.G. (方华高), Zhang Y.Q., Bai J., Wang, Z.G.* “Shear-induced nucleation and morphological evolution for bimodal long chain branched polylactide” Macromolecules, 2013, 46, 6555-6565.
13) Fang H.G.(方华高),Zhang Y.Q., Bai J., Wang Z.K., Wang, Z.G.* “Bimodal architecture and rheological and foaming properties for gamma-irradiated long-chain branched polylactides” RSC Advances, 2013, 3, 8783-8795.
14) Zhong Y., Fang H.G.(方华高),Zhang Y.Q., Wang Z.K., Yang J.J., Wang Z.G.*, “Rheologically determined critical shear rates for shear-induced nucleation rate enhancements of poly(lactic acid)” ACS Sustainable Chemistry & Engineering, 2013, 1, 663-672. (co-first author)
15) Xu H.J., Fang H.G.*(方华高), Bai J., Zhang Y.Q., Wang Z.G.* “Preparation and characterization of high melt strength polylactide with long chain branched structure through gamma radiation-induced chemical reactions” Industrial & Engineering Chemistry Research,2014, 53, 1150-1159.
