陈英波 - 天津工业大学 - 材料科学与工程学院

个人简介

陈英波，教授，2002年毕业于天津工业大学并获得工学学士学位，2005年南开大学高分子所硕士研究生毕业，获高分子化学与物理专业理学硕士，2009年2月韩国明知大学博士研究生毕业，获工学博士学位；2013年美国佐治亚理工学院(Georgia Institute of Technology )访问学者。从事高分子多孔材料与膜材料与应用研究。主讲课程包括：高分子化学、化纤工艺学、高分子材料改性（双语课程）、材料学文献检索与论文写作（双语课程）、化纤工艺学实验。

研究领域

核壳结构微纳米材料、功能膜材料。

近期论文

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[1]Geng XY, Li W*, Wang Y, Lu XW, Wang JP, Wang N, Li JJ, Zhang XX, Reversible thermochromic microencapsulated phase change materials for thermal energy storage application in thermal protective clothing, Applied Energy,2018, Accepted. (IF=7.182). [2]Li W*, Geng XY, Huang R, Wang JP, Wang N, Zhang XX, Microencapsulated comb-like polymeric solid-solid phase change materials via in-situ polymerization, Polymers, 2018, 10(2):1-12. [3]Li W*, Huang R, Zong JW, Wang JP, Zhang XX,Self-assembly synthesis and characterization of organic-inorganic hybrid macroencapsulated phase change materials (MacroPCMs) with pomegranate-like structure, Science of Advanced Materials, 2018, 10(5):707-717. [4]Zhang H(本科生), Li W*, Huang R, Wang N, Wang JP, Zhang XX, Microstructure regulation of microencapsulated bio-based n-dodecanol as phase change material by in-situ polymerization, New Journal of Chemistry, 2017, 41(23):14696-14707. [5]Li W*, Huang R, Zong JW, Zhang XX,Microencapsulation and morphological characterization of renewable microencapsulated phase change material with cellulose diacetate shell, ChemistrySelect, 2017, 2(21):5917-5923. [6]Huang R, Li W*, Wang JP, Zhang XX, Effects of oil-soluble etherified melamine- formaldehyde prepolymer on in-situ microencapsulation and macroencapsulation of n-dodecanol, New Journal of Chemistry, 2017, 41(17):9424-9437. [7]Zhang H(本科生), Li W*, Huang R, Wang JP, Zhang XX,Effects of polyvinyl alcohol modification on microstructure, thermal properties and impermeability of microencapsulated n-dodecanol as phase change material, ChemistrySelect, 2017, 2(29):9369-9376. [8]Yuan XY, Li W*, Zhu ZG, Han N, Zhang XX*, Thermo-responsive PVDF/PSMA composite membranes with micro/nanoscale hierarchical structures for oil/water emulsion separation, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 516:305-316. [9]Li W*, Zong JW, Huang R, Wang JP, Wang N, Han N, Zhang XX*, Design, controlled fabrication and characterization of narrow-disperse macrocapsules containing Micro/NanoPCMs, Materials & Design, 2016, 99:225-234. [10]Yuan XY, Li W*, Liu HH, Han N, Zhang XX*, A novel PVDF/graphene composite membrane based on electrospun nanofibrous film for oil/water emulsion separation, Composites Communications, 2016, 2:5-8, [11]Ma YJ, Zong JW, Li W*, Chen L, Tang XF, Han N, Wang JP, Zhang XX*,Synthesis and characterization of thermal energy storage microencapsulated n-dodecanol with acrylic polymer shell,Energy, 2015, 87:86-94. [12]Yuan WJ, Wang YP, Li W*, Wang JP, Zhang XX*, Zhang YK, Microencapsulation and characterization of polyamic acid microcapsules containing n-octadecane via electrospraying method, Material Express, 2015, 5:480-488. [13]Li W*, Ma YJ, Tang XF, Jiang N, Zhang R, Han N, Zhang XX*, Composition and characterization of thermal-regulated fiber containing acrylic-based copolymer MicroPCMs, Industrial & Engineering Chemistry Research, 2014, 53(13): 5413-5420. (cited times:18). [14]Li W, Zhang R, Jiang N, Tang XF, Shi HF, Zhang XX*, Zhang YK, Dong L, Zhang NX, Composite macrocapsule of phase change materials/expanded graphite for thermal energy storage, Energy, 2013, 57:607-614. (cited times:24). [15]Li W*, Zhang XX*, Wang XC, Tang GY, Shi HF, Fabrication and morphological characterization of microencapsulated phase change materials (MicroPCMs) and macrocapsules containing MicroPCMs for thermal energy storage, Energy, 2012, 38:249-254. (cited times:51).