"

欢迎来到csgo下注(yabovip6666.cn)全新升级娱乐网站。csgo下注综合各种在线游戏于一站式的大型游戏平台,经营多年一直为大家提供安全稳定的游戏环境,csgo下注致力于提供全球客户有价值的游戏,为用户提供优质服务。

<sub id="l7f7v"></sub>

            <thead id="l7f7v"></thead>

            <address id="l7f7v"></address>
            <sub id="l7f7v"></sub>

            <address id="l7f7v"></address>

            <thead id="l7f7v"></thead>

                <sub id="l7f7v"></sub>

                  "
                     
                   
                  研究生处 党委研究生工作部
                  |
                  首页  资料  材料与化学工程学院

                  赵俊红


                  发布部门: 研究生处  发布时间: 2019-12-16  浏览次数: 484

                  郑州轻工业大学硕士生导师基本情况一览表

                  姓名

                  赵俊红

                   

                  职称

                  讲师

                  学科/专业学位类别

                  材料科学与工程/材料与化工

                  研究方向

                  高分子功能材料;无机/有机复合材料;电化学

                  1.导师基本情况

                  硕士生导师,2003年郑州大学本科毕业,同年推荐免试郑州大学硕士研究生,20123月上海交通大学高分子物理化学专业博士研究生毕业,获博士理学学位。主持完成国家自然科学基金-河南联合基金1项,河南教育厅重点项目1项。Journal of power sources、Advanced Materials Interfaces、Particle & Particle Systems Characterization、Reactive and Functional Polymers、CrystEngComm等国际期刊发表SCI收录论文20余篇。

                  2. 代表性成果

                  1. Zhao, J., Zheng, M., Run, Z., Xia, J., Sun, M., Pang, H., 1D Co 2.18 Ni 0.82 Si 2 O 5 (OH) 4 Architectures Assembled by Ultrathin Nanoflakes for High-performance Flexible Solid-state Asymmetric Supercapacitors. Journal of Power Sources2015, 285, 385-392.

                  2. Zhao J., Li, B., Du, W., Huang, Q., Zheng, M., Xue, H., Pang, H., Facile Synthesis of Polypyrrole Nanowires for High-Performance Supercapacitor Electrode Materials. Progress in Natural Science: Materials International 2016, 26(3), 237-242.

                  3. Zhao, J., Zhang, Y., Wang, T., Li, P., Wei, C., Pang, H., Reed Leaves as a Sustainable Silica Source for 3D Mesoporous Nickel (Cobalt) Silicate Architectures Assembled into Ultrathin Nanoflakes for HighPerformance Supercapacitors. Advanced Materials Interfaces2015, 2(2),1400377

                  4. Zhao, J., Zhang, Y., Run, Z., Li, P., Guo, Q., Pang, H., Ferric Phosphate Hydroxide Microstructures Affect Their Magnetic Properties. ChemistryOpen2015, 4(3), 274-277.

                  5. Zhao, J., He, J., Sun, M., Qu, M., Pang, H., Nickel hydroxide–nickel nanohybrids indirectly from coordination microfibers for high-performance supercapacitor electrodes. Inorganic Chemistry Frontiers2015, 2(2), 129-135.

                  6. Zhao, J., Wang, S., Run, Z., Zhang, G., Du, W., Pang, H., Hydrothermal Synthesis of Nickel Phosphate Nanorods for HighPerformance Flexible Asymmetric AllSolidState Supercapacitors. Particle & Particle Systems Characterization2015, 32(9), 880-885.

                  7. Zhao, J., Wei, C., Pang, H., Zeolitic Imidazolate Framework67 Rhombic Dodecahedral Microcrystals with Porous {110} Facets As a New Electrocatalyst for Sensing Glutathione. Particle & Particle Systems Characterization2015, 32(4), 429-433.

                  8. Zhao, J., Pang, H., Deng, J., Ma, Y., Yan, B., Li, X., Li, S., Chen, J., Wang, W., Mesoporous uniform ammonium nickel phosphate hydrate nanostructures as high performance electrode materials for supercapacitors. CrystEngComm2013, 15(30), 5950-5955.

                  9. Zhao, J., Xu, A., Yuan, W.Z., Gao, J., Tang, J., Wang, L., Ai, F., Zhang, Y., Evaluation of electrospun nanofiber formation of perfluorosulfonic acid and poly (N-vinylpyrrolidone) through solution rheology. Journal of materials science2011, 46(23), 7501-7510.

                  10. Zhao, J., Yuan, W.Z., Xu, A., Ai, F., Lu, Y., Zhang, Y., Perfluorinated sulfonic acid ionomer/poly (N-vinylpyrrolidone) nanofiber membranes: Electrospinning fabrication, water stability, and metal ion removal applications. Reactive and Functional Polymers2011, 71(11), 1102-1109.

                   


                  Copyright2007 郑州轻工业大学 All Rights Reserved
                  电话:0371-86608280,86601165 邮箱:yjsc@zzuli.edu.cn
                  csgo下注

                  <sub id="l7f7v"></sub>

                            <thead id="l7f7v"></thead>

                            <address id="l7f7v"></address>
                            <sub id="l7f7v"></sub>

                            <address id="l7f7v"></address>

                            <thead id="l7f7v"></thead>

                                <sub id="l7f7v"></sub>