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刘红飞
发布日期:2014-09-26浏览次数:字号:[ ]

 

 

联系方式:

    邮箱: liuhf@yzu.edu.cn

    QQ: 121834849

    地址:扬州市四望亭路180号,扬州大学物理科学与技术学院,225002

    办公地点:物理楼212

一、导师简历:

  1.教育经历

    2000.9-2004.6  武汉工程大学, 获无机非金属材料科学与工程专业学士学位;

    2004.9-2006.6  江苏大学, 获材料学专业硕士学位;

    2006.9-2009.6  江苏大学, 获材料学专业博士学位。

  2. 工作经历

    2012.8-至今扬州大学副教授,硕士研究生导师

    2009.6-2012.8 扬州大学助理研究员

  期间:

    2013.8 -2014.9  美国托莱多大学,国家公派访问学者

  3. 兼任主要社会职务:

二、研究领域:

  1、研究方向:负热膨胀功能材料

  2、研究内容:

  负热膨胀材料是一种具有特殊性能的新型功能材料,在航空航天、光学、微电子和微机械等领域具有巨大的潜在应用价值。目前课题组其相关研究主要集中在该系列材料的陶瓷、薄膜、粉体超细化和相关复合材料,系统分析负热膨胀的制备工艺、成分、结构和性能的关系,考察不同系列负热膨胀材料的负热膨胀性能规律及其机理,并测试其相应力学、光学和介电等性能。开发设计负热膨胀材料和其复合材料的相关器件,为其今后的应用和研究提供所需的基础理论和技术数据。

  3、科研项目

   1、国家自然科学基金青年科学基金项目基于同步辐射的A2-xScxMo3O12(A=Al,Fe, Cr,In)相变调控及负膨胀性能与机理研究项目编号:51602280,2 4万;           

    2、国家自然科学基金青年科学基金项目“AM2O8(A=Zr,HfM=W,Mo)薄膜的制备和负热膨胀性能研究项目编号:51102207, 25万;

  3、国家自然科学青年基金项目高可见光催化活性的磁性钨酸铋空心纳米球的制备项目编号:21101135,排名第二,25万;

  4、江苏省高校基金项目磁性钨酸铋空心纳米球的制备及其可见光催化性能研究项目编号:11KJB150020,排名第二,3万元;

  5、江苏省高校基金项目 “Sc2M3O12(M=W,Mo)薄膜制备与性能研究项目编号:14KJB430025,排名第二,3万元;

 三、研究成果

    1、专利技术

  [1]刘红飞,程晓农,等。一种负热膨胀材料ZrW2O8薄膜的制备方法(射频磁控溅射法)(申请号:200810156933.4)

  [2]程晓农,刘红飞,等。一种负热膨胀材料ZrW2O8薄膜的制备方法(脉冲激光沉积法)(申请号:200810156934.9)

  [3]程晓农,张志萍,徐桂芳,刘红飞,等。一种可控热膨胀材料ZrW2O8/ZrO2复合材料的制备方法(申请号:200810156929.8)

    2、发表的主要论文

    [1].Hongfei Liu*, Lu Yang, Zhiping Zhang, Kunmin Pan, Fang Zhang, Honghui Cheng, Xianghua Zeng, Xiaobing Chen, Preparation and optical, nanomechanical, negative thermal expansion properties of Sc2W3O12 thin film grown by pulsed laser deposition, Ceramics International, 42:8809-8814, 2016. 

  [2].Zhiping Zhang, Lu Yang, Hongfei Liu*, Kunmin Pan, Wei Wang, Xianghua Zeng, Xiaobing Chen, Preparation and negative thermal expansion properties of Y2W3O12 thin films grown by pulsed laser deposition, Ceramics International, 42:18902-18906, 2016.

  [3].Lindsay Young, Pablo Torrico Alvarez, Hongfei Liu, Cora Lind*, Extremely low temperature crystallization in the A2M3O12 family of negative thermal expansion materials, European Journal of Inorganic Chemistry, 8:1251-1256, 2016.

  [4].Hongfei Liu*, Zhiping Zhang, Jian Ma, Zhu Jun, Xianghua Zeng, Effect of isovalent substitution on phase transition and negative thermal expansion of In2-xScxW3O12 ceramics, Ceramics International, 41:9873-9877, 2015.

  [5].Hongfei Liu*, Zhiping Zhang, Kunmin Pan, Jian Ma, Lu Yang, Xianghua Zeng, Effects of substrate temperature and oxygen pressure in pulsed laser deposited ZrW1.5Mo0.5O8 thin films, Ceramics International, 41:11918-11921, 2015.

  [6].Hongfei Liu, et al, ZrW1.5Mo0.5O8薄膜的制备及其负热膨胀性能研究, 真空科学与技术学报,2015 40期。

  [7].Hongfei Liu, Gang Wang, Zhiping Zhang, Kunmin Pan, Xianghua Zeng. Synthesis of negative thermal expansion HfW2O8 thin film using pulsed laser deposition, Ceramics International, 2014 40:13855–13859.

  [8].Hongfei Liu,et al, Phase transition and negative thermal expansion in In2W3O12 ceramics, Journal of the Chinese Ceramic Society, 2014429:1116-1120.

  [9].Hongfei Liu, et al, Synthesis, phase transition and negative thermal expansion property of HfW2O8 ceramics, Journal of the Chinese Ceramic Society, 2014429:718-722.

  [10].Hongfei Liu, Kunmin Pan, Qu Jin, et al. Negative thermal expansion and shift in phase transition temperature in Mo-substitutedZrW2O8 thin films prepared by pulsed laser depositionCeramics International, 2014 40:3873–3878.

  [11].Hongfei Liu, Zhiping Zhang, Wei Zhang, et al. Synthesis and negative thermal expansion properties of Yb2−xLaxW3O12(0≤x≤2), Ceramics International, 2013 39:2781-2786.

  [12].Hongfei Liu, Xiaocen Wang, Zhiping Zhang, et al, Synthesis and thermal expansion properties of Y2−xLaxMo3O12(x=0,0.5,2),Ceramics International,2012 38(8):6349-6352.

  [13].Hongfei Liu, Wei Zhang, Zhiping Zhang, et al. Synthesis and negative thermal expansion properties of solid solutions Yb2−xLaxW3O12(0≤x≤2), Ceramics International, 2012 38(4):2951-2956.

  [14].Hongfei Liu, Zhiping Zhang, Wei Zhang, et al.  Effects of HCl concentration on the growth and negative thermal expansion property of the ZrW2O8 nanorods, Ceramics International, 2012 38(2):1341-1345.

  [15].Hongfei Liu, Zhiping Zhang, Wei Zhang, et al. Negative thermal expansion ZrW2O8 thin films prepared by pulsed laser depositionSurface & Coatings Technology, 2011, 205:5073-5076.

  [16].Hongfei Liu, Zhiping Zhang, Wei Zhang, et al.Growth and stress distributions of negative thermal expansion ZrW2O8 Films deposited by RF magnetron sputtering,Journal of Vacuum Science and Technology, 2011 31(3):253-257.

  [17].Hongfei Liu, Xiaonong Cheng, Zhiping Zhang, et al. Preparation and properties of negative thermal expansion ZrW2O8 thin films deposited by radio frequency magnetron sputtering. Physica Status Solidi B, 2008, 245(11):2509-2513.

  [18].Hongfei Liu, Zhiping Zhang, Xiaonong Cheng, et al. Synthesis and properties of negative thermal expansion ZrW2O8 thin films deposited by pulsed laser deposition. Journal of the Chinese Ceramic Society. 2009, 37(5):755-758.

  [19].Hongfei Liu, Zhiping Zhang, Xiaonong Cheng, et al. Thermal expansion of ZrO2-ZrW2O8 composites prepared using co-precipitation route, International Journal of Modern Physics B, 2009, 23(6):1449-1454.

  [20].Hongfei Liu, Zhiping Zhang, Xiaonong Cheng, et al. ZrW2O8/ZrO2 film growth and its composite target fabrication, Journal of Vacuum Science and Technology, 2009 29(6): 686-689.

  [21].Hongfei Liu, Xiaonong CHENG, Juan Yang, et al. Preparation and Characterization of Nucleus/Shell TiO2/HAP Complex Nanophotocatalyst, Journal of Materials Science & Technology, 2007, 23 (01):55-60

  [22].Hongfei Liu, Zhiping Zhang, Xiaonong Cheng, et al. Effects of post-deposition annealing on ZrW2O8 thin films by radio frequency magnetron sputtering, Rare Metal Materials and Engineering, 200938(7):1284-1287.

  [23].Hongfei Liu, Zhiping Zhang, Xiaonong Cheng, et al. Effects of preparation method on microstructure and thermal expansion property of ZrO2-ZrW2O8 composites, Journal of Functional Materials, 2008, 39(10):1673-1676.

  [24].Hongfei Liu, Xiaonong Cheng, Zhiping Zhang, et al. Growth and characteristics of ZrW2O8 films by rf magnetron sputtering of different ceramic composite target, Journal of Vacuum Science and Technology, 2008,28(6):498-502.

 




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