个人概况: |
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姓 名:邵 刚 |
性 别:男 |
出生年月:1981年09月 |
籍 贯:吉林省梅河口市 |
最高学历:博 士 |
从事专业:材料科学与工程 |
职 务: |
职 称:副教授 |
联系方式:电话:0371-67781590 E-mail:gang_shao@zzu.edu.cn |
通讯地址:郑州市科学大道100号郑州大学材料科学与工程学院(邮政编码:450001) |
个人简历: |
2009.08—2013.08 美国中佛罗里达大学,材料学院 博士 2006.08—2009.07 郑州大学,材料科学与工程学院 硕士 2002.08—2006.07 郑州大学,材料科学与工程学院 本科 |
教学情况: |
先后承担光电子材料、复合材料学、功能复合材料、研究生专业英语等课程的讲授。 |
研究领域: |
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科研项目: (1)国家自然科学基金:微波辅助聚合物先驱体陶瓷结构、性能调控机理,项目编号:51402264 (2)中国博士后科研基金:SiAlBCN聚合物先驱体陶瓷的合成及高温传感特性研究,项目编号:2014M561996 (3)郑州大学优秀青年教师专项科研基金(重点):项目名称:铝电解用新型Fe-Cu-Ni/SiAlCN金属陶瓷惰性阳极的制备及其抗氧化抗熔盐腐蚀特性研究,项目批准号:1421320049 |
研究梯队: |
张锐教授、卢红霞教授、许红亮教授、陈德良教授、王海龙教授、邵刚副教授、范冰冰博士等,每年招收博士研究生1~2人,硕士研究生20人左右,专业学位研究生5~10人 |
主要荣誉: |
(1)2007年第四届中国青少年科技创新奖(全国100人/年) (2)2007-08年度郑州大学十佳研究生 (3)2005年第九届全国大学生挑战杯三等奖 (4)2008年全国诺基亚创业创意计划竞赛银奖 (5)2008年第六届河南省大学生挑战杯创业计划竞赛金奖 |
成果清单: |
1、代表论文 |
[1] Gang Shao, Guangfeng Zhao, Fuqian Yang, Chengying Xu and Linan An. “Ceramic nanocomposites reinforced with a high volume fraction of carbon nanofibers”. Materials Letters. 68, 108-111(2012). |
[2] Ye Tian*, Gang Shao*, Xingwei Wang and Linan An “Fabrication of Nano-Scaled Polymer Derived SiAlCN Ceramic Components Using Focused Ion Beam”, Journal of Micromechanics and Microengineering, 23(9), 095035 (2013). (*共同第一作者) |
[3] Ran Zhao*, Gang Shao*, Yejie Cao, Linan An, Chengying Xu, “ Temperature sensor made of polymer-derived ceramicsfor high-temperature applications”, Sensors and Actuators A: Physical. 219, 58-64(2014). (*共同第一作者) |
[4] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Yajun Xie and Rui Zhang*, Synthesis of flower-like CuS hollow microspheres based on nanoflakes self-assembly and their microwave absorption properties, J. Mater. Chem. A, 2015, 3: 10345-10352. (*通讯作者) |
[5] Biao Zhao, Wanyu Zhao, Gang Shao*, Bingbing Fan, and Rui Zhang*, Morphology-Control Synthesis of a Core−Shell Structured NiCu A with Tunable Electromagnetic-Wave Absorption Capabilities, ACS Appl. Mater. Interfaces, 2015, 7: 12951-12960. (*通讯作者) |
[6] Biao Zhao, Bingbing Fan, Gang Shao*,Wanyu Zhao, and Rui Zhang*, Facile Synthesis of Novel Heterostructure Based on SnO2 Nanorods Grown on Submicron Ni Walnut with Tunable Electromagnetic Wave Absorption Capabilities, ACS Appl. Mater. Interfaces, 2015, 7: 18815−18823. (*通讯作者) |
[7] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Shihao Zhang, Keke Guan, Rui Rui Zhang*, In-situ synthesis of novel urchin-like ZnS/Ni3S2@Ni composite with core-shell structure as an efficient electromagnetic absorption absorber, J. Mater. Chem. C, 2015, (已接收) (*通讯作者) |
[8] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Yajun Xie, Rui Zhang*, Facile preparation and enhanced microwave absorption properties of core–shell composite spheres composited of Ni cores and TiO2 shells, Phys. Chem. Chem. Phys., 2015, 17: 8802-8810. (*通讯作者) |
[9] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Rui Zhang*, Investigation of the electromagnetic absorption properties of Ni@TiO2 and Ni@SiO2 composite microspheres with core–shell structure, Phys. Chem. Chem. Phys., 2015, 17: 2531-2539. (*通讯作者) |
[10] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Rui Zhang*, Facile synthesis and enhanced microwave absorption properties of novel hierarchical heterostructures based on a Ni microsphere–CuO nano-rice core–shell composite, Phys. Chem. Chem. Phys., 2015, 17: 6044-6052. (*通讯作者) |
[11] Biao Zhao, Wanyu Zhao, Gang Shao*, Bingbing Fan, Rui Zhang*, Corrosive synthesis and enhanced electromagnetic absorption properties of hollow porous Ni/SnO2 hybrids, Dalton Trans., 2015, 44: 15984 – 15993. (*通讯作者) |
[12] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Yongqiang Chen, Rui Zhang*, Facile synthesis of crumpled ZnS net-wrapped Ni walnut spheres with enhanced microwave absorption properties, RSC Adv., 2015, 5: 9806-9814. (*通讯作者) |
[13] Biao Zhao, Gang Shao*, Bingbing Fan, Wanyu Zhao, Rui Zhang*, Preparation and electromagnetic wave absorption properties of novel dendrite-like NiCu alloy composite, RSC Adv., 2015, 5: 42587–42590. (*通讯作者) |
2、申请专利 |
[1] 邵刚,安立楠,张锐,范冰冰,王海龙,陈德良,卢红霞,许红亮,赵彪,李新芳,郭静霞,彭文峰;SiAlCN聚合物先驱体陶瓷温度传感器及其制备方法;申请号:201510273389.1 |