姓    名

赵海涛

职    称

讲师

硕士生导师

研究方向

1.材料研究：高分子材料及无机功能纳米材料

2.功能化研究：高分子聚合合成技术及高效新方法研究，新能源电化学储能应用研究

邮    箱

邮件联系：2796768189@qq.com (也可添加QQ好友直接联系，QQ号：2796768189)

教育和科研工作经历：

2017-至今，郑州大学，材料科学与工程学院，讲师

2012-2017，兰州大学，凝聚态物理学专业，博士

2008-2012，兰州大学，物理学基地班专业，学士

研究介绍：

围绕优化高分子合成理论和方法创新和功能纳米材料的可控制备和性能提升及新能源电化学储能应用研究的相关科学问题，开展新型高分子合成新技术和聚合结构研究及功能纳米材料可控合成，立足于揭示可控/“活性”聚合理论和方法新规律，构建功能高分子材料结构和无机纳米材料高性能研究目标。

优化高分子合成方法和技术，研发新型高效新能源电化学储能器件应用研究方向，已主持和参与国家自然科学基金，河南省自然科学基金青年基金，河南省高等学校项目等国家和省级项目；目前部分研究成果已在Advanced Science，Electrochimica Acta，Nanoscale等多篇国际权威SCI学术期刊发表。

荣誉与奖励：

毕业研究生论文获郑州大学2024年校级优秀专业学位硕士论文

代表性论著：

Y.Z, J.H, H.Z, et.al; Preparation of Lignosulfonate@AgNPs Colloidal Nanocrystal Clusters through In Situ Reduction, Confined Growth, and Self Assembly，ACS Sustainable Chem. Eng., 2023, 11, 11130.

H.Z, W.H, W.L, et.al; Bubble Carbon-nanofibers Decorated with MnO₂ Nanosheets as High-Performance High-Performance Supercapacitor Electrode, Electrochimica Acta, 2016, 222(20): 1931.

Y.L, J.Z, Y.S, et.al; Robust Strategy to Improve the Compatibility between Incorporated Upconversion

Nanoparticles and the Bulk Transparent Polymer Matrix, ACS Omega, 2023, 8: 32159.

H.M, A.Z, X.Z, et.al; Novel platform for visualization monitoring of hydrolytic degradation of bio-degradable polymers based on aggregation-induced emission (AIE) technique, Sensors and Actuators B: Chemical, 2020, 304: 127342.

W.S, H.Z, B.L; Core-shell ZnCo₂O₄@TiO₂ nanowall array as an anode for Li-ion batteries, Nanotechnology, 2017, 28(16):1654031.

L.M, H.Z, B.L, et.al; Ultra-Efficient Photocatalytic Properties in Porous Tungsten Oxide/Graphene Film

Film under Visible Light Irradiation, Advanced Science, 2015, 2(12):1500116.

J.G, H.L, B.X, et.al; A synthesized semi-aromatic copolyamaide through synergy of three different kinds of monomers: Toward high transparency, excellent heat resistance and melt flowing property, Journal of Applied Polymer Science, 2021, 138(2): 49678.

B.L, T.L, X.L, et.al; Graphene-based composite materials beneficial to wound healing, Nanoscale, 2012, 9(4): 2978.

W.L, Z.H, X.Z, et.al; New sight for in-situ monitoring of silica growth process: The incorporation of Stöber process and aggregation-induced emission (AIE) technique, Dyes and Pigments, 2020, 182: 108637.

H.Z, B.L, J.X, et.al; Electrospinning–thermal treatment synthesis: a general strategy to decorate highly porous nanotubes on both internal and external side-walls with metal oxide/noble metal nanoparticles, Nanoscale, 2013, 5(7): 2835.