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发布时间: 2015-12-22 15:15:52   作者:本站编辑   来源: 本站原创   浏览次数:

张鹏, 副教授, 硕士生导师, 重庆市学术技术带头人后备人选



20067-至今         西南大学  副教授

20039-20066  吉林大学  材料物理与化学   博士

20019-20039  吉林大学  高分子化学与物理

19969-20006  吉林大学  材料科学与工程    学士



Email: ybzhang@swu.edu.cn







[16] Wei Xia, Yun-hu Feng, Jian Zou, Jin Huang, Ming-ming Guo, Peng Zhang*. Low percolation conductive graphite flakes filled poly(urethane-imide) composites with high thermal stability via imidization self-foaming structure. Mater Today Chem. 2021,21, 100516(1-12).

[15] Lei Zhao, Wei Xia, Peng Zhang*. Economical conductive graphite-filled polymer composites via adjustable segregated structures: construction, low percolation threshold, and positive temperature coefficient effect. J Appl Polym Sci. 2021, 138(17), e50295(1-11).

[14] Fang Lai, Lei Zhao, Jian Zou, Peng Zhang*. High Positive Temperature Coefficient Effect of Resistivity in Conductive Polystyrene/Polyurethane composites with Ultralow Percolation Threshold of MWCNTs via Interpenetrating Structure. React & Funct Polym. 2020, 151, 104562 (1-9).

[13] Peng Zhang*, Bin-bin Wang, Qiu-jin Xia, Jian Zou. Study on the effect of tailoring the segmented PU molecules on electrically conductive properties and percolation threshold of PU/MWCNTs nanocomposites. Synth Metals. 2020, 261, 116300 (1-8) .

[12] Bin-bin Wang, Fang Lai, Peng Zhang*.Facile preparation and tunable light shielding properties of the mechanical enhanced thermosetting polyurethanes. Mater Res Express. 2019, 6 (8), 085705(1-7).

[11] Peng Zhang*, Yanling Hou, Binbin Wang. VO2-Enhanced double positive temperature coefficient effects of high density polyethylene/graphite composites. Mater Res Express. 2019, 6(3), 035702 (1-9).

[10] Miao-miao Xie, Bin-bin Wang, Peng Zhang*. The effect of crystallization behavior on high conductivity, enhanced mechanism and thermal stability of poly(ε-caprolactone)/multi-walled carbon nanotube composites. J Disper Sci Techn. 2019, 40 (1), 94-102.

[9] Fang Lai, Bin-Bin Wang, Peng Zhang*. Enhanced positive temperature coefficient in amorphous PS/CSPEMWCNT composites with low percolation threshold. J Appl Polym Sci. 2019, 136(6), 47053 (1-8).

[8] Peng Zhang*, Bin-bin Wang. Positive temperature coefficient effect and mechanism of compatible LLDPE/HDPE composites doping conductive graphite powders. J Appl Polym Sci. 2018, 135(27), 46453(1-8).

[7] Yan-ling Hou, Peng Zhang*, Miao-miao Xie. The Thermal-induced Double Positive Temperature Coefficients of Electrical Resistivity of the Combined Conductive Fillers-doped Polymer Composites. J Appl Polym Sci. 2017, 134(23), 44876(1-11).

[6] Na Sun, Peng Zhang*, Yanling Hou. Synthesis, photophysics, ion detection and DFT investigation of novel cyano-substituted red-light chromophores with a triphenylamine donor. RSC Advances. 2016, 6, 12205–12214.

[5] Dongliang Cao, Peng Zhang*, Pei Liu, Shaonan Cui, Na Sun.New conjugated cruciform chromophores with D-p-A structure: Synthesis, characterization and theoretical calculation. J Mol Struct. 2014, 1076, 396–402.

[4] Peng Zhang*, Dongliang Cao and Shaonan Cui. Resistivity-temperature behavior and morphology of low density polyethylene/graphite powder/graphene composites. Polymer Composites. 2014, 35(8), 1453-1459.

[3] Pei Liu, Peng Zhang*, Dongliang Cao, Lihua Gan, Yuanfang Li. New side groups-tuned triphenylamine-based chromophores: synthesis, morphology, photophysical properties and electronic structures. J Mol Struct. 2013, 1050, 151–158.

[2] Pei Liu, Peng Zhang*, Dongliang Cao, Wenting Xue. Preparation, characterization and photodegradation of methylene blue based on TiO2 microparticles modified with thiophene substituents. Chin Sci Bull. 2012, l57, 4381–4386.

[1] Wenting Xue, Peng Zhang*, Yong Zhao, Pei Liu. Facile coordinating decoration of salophen Al on graphene nanosheet: Salophen Al complex functionalized graphene nanocomposite with electrochemical properties. Mat Chem Phy. 2012, 133, 170–175.