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韩小鹏

发布日期:2023-03-28     作者:     浏览数:    分享到:

姓名:韩小鹏(HAN Xiaopeng)

E-mailhanxiaopeng@xust.edu.cn、xphannwpu@163.com

研究方向:导热复合材料、电磁吸波复合材料

学位:博士

毕业学校:西北工业大学

职称:讲师

主要学习经历:

2019.03-2022.12西北工业大学 博士研究生

2016.09-2019.03西北工业大学 硕士研究生

2012.09-2016.07中国矿业大学 本科

研究工作简介:

韩小鹏,男,陕西安康人,2022年博士毕业于西北工业大学,师从黄英教授。研究兴趣包括:(1)金属基导热材料的构筑与转化应用;(2)MXene基电磁吸波复合材料设计与应用;(3)多功能柔性薄膜的设计与应用。近年来发表SCI论文36篇,总引用800余次,其中以第一作者在Composites Part B-Engineering、Carbon、Composite Structures、Acs Applied Nano Materials等权威期刊发表论文13篇。

近年来主持及参与的部分科研项目:

(1)国家自然科学基金委员会,面上项目,52072307,新型生物质基柔性薄膜的构建机制及其电化学/导热性能研究,2021-01-01至2024-12-31,59万元,在研,参与。

(2)西安科技大学,西安科技大学高层次人才支撑项目,2022-12至2027-12, 50万元,在研,主持。

(3)西北工业大学,西北工业大学校企协同创新基金项目,2019.03-2021.03,已结题,主持。

近年来发表的部分学术论文:

[1]Han X, Huang Y, Wang J, et al., Flexible hierarchical ZnO/AgNWs/carbon cloth-based film for efficient microwave absorption, high thermal conductivity and strong electro-thermal effect[J]. Composites Part B-Engineering, 2022, 229.

[2]Han X, Huang Y, Gao S, et al., A hierarchical carbon Fiber@MXene@ZnO core-sheath synergistic microstructure for efficient microwave absorption and photothermal conversion[J]. Carbon, 2021, 183.

[3]Han X, Huang Y, Wang J, et al., The flexible carbon fibers@ZIF-67 decorated with MoS2layers towards tunable and high-performance electromagnetic wave absorption[J]. Composites Part B-Engineering, 2022, 239.

[4]Han X, Huang Y, Peng X, et al., 3D continuous copper networks coated with graphene in Al-matrix composites for efficient thermal management[J]. Composite Structures, 2021, 258.

[5]Han X, Huang Y, Ding L, et al., Ti3C2TxMXene Nanosheet/Metal-Organic Framework Composites for Microwave Absorption[J]. Acs Applied Nano Materials, 2021, 4 (1).

[6]Han X, Huang Y, Wang J, et al., Fabrication of graphite films/copper composites by vacuum hot pressing for high-efficiency thermal management property[J]. Composites Communications, 2021, 24.

[7]Han X, Huang Y, Yan J, et al., Highly thermally conductive nanocomposites synthesized by PVD for thermal management applications[J]. Journal of Alloys and Compounds, 2020, 825.

[8]Han X, Huang Y, Gao Q, et al., High Thermal Conductivity and Mechanical Properties of Nanotube@Cu/Ag@Graphite/Aluminum Composites[J]. Industrial & Engineering Chemistry Research, 2018, 57 (31).

[9]Han X, Huang Y, Zhou S, et al., Effects of graphene content on thermal and mechanical properties of chromium-coated graphite flakes/Si/Al composites[J]. Journal of Materials Science-Materials in Electronics, 2018, 29 (5).

[10]Han X, Huang Y, Gao Q, et al., Effects of nanotube content on thermal and mechanical properties of NT@Cu/Ag@GF/Al composites[J]. Journal of Alloys and Compounds, 2018, 766.

[11]Han X, Huang Y, Ding L, et al., High thermal conductivity of GF@Cu@Ni/Si/Al composites reinforced with Cu and Ni co-deposited graphite flakes[J]. Ceramics International, 2020, 46 (11).

[12] Yang F, Huang Y,Han X, et al., Covalent Bonding of MXene/Reduced Graphene Oxide Composites for Efficient Electromagnetic Wave Absorption[J]. Acs Applied Nano Materials, 2023.

[13] Yan J, Huang Y,Han X, et al., Metal organic framework (ZIF-67)-derived hollow CoS2/N-doped carbon nanotube composites for extraordinary electromagnetic wave absorption[J]. Composites Part B-Engineering, 2019, 163.

[14] Wang J, Huang Y,Han X, et al., Construction of hierarchical Co9S8@NiO synergistic microstructure for high-performance asymmetric supercapacitor[J]. Journal of Colloid and Interface Science, 2021, 603.

[15] Wang J, Huang Y,Han X, et al., A flexible Zinc-ion hybrid supercapacitor constructed by porous carbon with controllable structure[J]. Applied Surface Science, 2022, 579.

[16] Peng X, Huang Y,Han X, et al., High volume fraction of copper coated graphite flake/Nitrogen doped carbon fiber reinforced aluminum matrix composites[J]. Journal of Alloys and Compounds, 2020, 822.

[17] Fan R, Huang Y,Han X, et al., High thermal conductivity and mechanical properties of Si@Graphite/Aluminum nitride/aluminum composites for high-efficiency thermal management[J]. Journal of Alloys and Compounds, 2021, 858.

国家发明专利:

1.黄英,彭轩懿,孙旭,韩小鹏,樊睿.硅气凝胶原位固化制备石墨增强金属基复合材料预制体的方法.申请号:CN201910120049.3.

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