刘飞 - 中山大学 - 电子与信息工程学院

个人简介

教育经历: 1999年7月于吉林大学获工学学士学位， 2002年7月于吉林大学获工学硕士学位， 2005年5月于中国科学院物理研究所获得理学博士学位， 2005年7月在光电材料与技术国家重点实验室和广东省显示材料与技术重点实验室工作， 2012年9月-2013年9月于日本NIMS的Y.Bando小组进行访问学者交流1年，现在读硕士研究生4名，联合培养博士研究生2名。

研究领域

1. 微电子与固体电子学(新型光电纳米器件的制作及其工作特性研究)； 2. 凝聚态物理（拓扑绝缘体纳米结构的表面物性及机制研究）； 3. 材料物理与化学（纳米异质结的可控合成及其光敏和气敏特性的研究）； 4. 光学工程(低功函数纳米结构的表面光学特性及机制研究)。

近期论文

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1. F. Liu, J. F. Tian, L. H. Bao, N. S. Xu, H. J. Gao et al., Adv. Mater. 20 (2008) 2609, (Fabrication of Vertically Aligned Single Crystalline Boron Nanowire Arrays and Investigation on Their Field Emission Behaviors)，(IF factor =17.5). 2. F. Liu, H. R. Zhang, C. M. Shen, H. J. Gao et al., Adv. Mater. 17 (2005) 1893. (Novel Nanopyramid Arrays of Magnetite), (IF factor =17.5). 3. F. Liu* , D. M. Tang, Haibo Gan, N. S. Xu et al., (Individual Boron Nanowire Has Ultra-high Specific Young’s Modulus and Fracture Strength As Revealed by in situ Transmission Electron Microscopy), ACS Nano 7( 2013) 10112, (IF=12.88). 4. Xuebin Wang*, Qunhong Wen, Xi Wang, Fei Liu*(共同通讯作者), Dmitri Golberg, Yoshio Bando et al., Biomass-Directed Synthesis of 20 g High-Quality Boron Nitride Nanosheets for Thermoconductive Polymeric Composites, ACS Nano 8 (2014) 9081, (IF=12.88). 5. F. Liu, Z. J. Su, L. Li, H. J. Gao, N. S. Xu et al., Adv. Funct. Mater. 20 (2010) 1994, (Effect of Contact Mode on The Electrical Transport and Field Emission Performance of Individual Boron Nanowires)，(IF factor =11.81). 6. F. Liu*, H. B. Gan , D. M. Tang, N. S. Xu, D. Golberg, Y. Bando et al., (Growth of Large-Scale Boron Nanowire Patterns with Identical Base-up mode and in-situ Field Emission Studies of Individual Boron Nanowire), Small 4 (2014) 685, (IF=8.37). 7. F. Liu, Z. J. Su, F. Y. Mo, N. S. Xu et al., Nanoscale 3 (2011) 610, (Controlled Synthesis of Ultra-long AlN Nanowires in Different Densities and in situ Investigation of The Physical Properties of An Individual AlN Nanowire)，(IF factor =7.39). 8. F. Liu, F. Y. Mo, S. Y. Jin, S. Z. Deng, N. S. Xu et al., Nanoscale 3 (2011) 1850, (A Novel Lift-off Way to Fabricate Patterned and Vertically-aligned W18O49 Nanowire Arrays with Good Field Emission Performance), (IF factor =7.39). 9. F. Liu, C. M. Shen, Z. J. Su, X. L. Ding, S. Z. Deng, J. Chen, N. S. Xu, H. J. Gao, J. Mater. Chem. 20 (2010) 2197, (Metal-like Single Crystalline Boron Nanotubes and in situ Study Electric Transport and Field Emission Properties), (IF factor =6.63). 10. F. Liu*, T. Y. Guo, N. S. Xu, D. Golberg, Y. Bando et al., J. Mater. Chem. C.1 (2013) 3217, (Controlled Synthesis of Patterned W18O49 Nanowire Vertical-arrays and Improved Field Emission Performance by in-situ Plasma Treatment), (IF factor =4.7). 11. Shunyu Jin, Yan Tian, Fei Liu*(共同通讯作者), Ningsheng Xu* et al., (Intense green-light emission from 9,10-bis(4-(1,2,2-triphenylvinyl)styryl)anthracene emitting electroluminescent devices), J. Mater. Chem. C, 3 (2015) 8066, (IF factor =4.7). 12. F. Liu*, X. S. Mo, N. S. Xu. Y. Bando et al., Scientific Reports 4 (2014) 4211 (Cheap, Gram-Scale Fabrication of BN Nanosheets via Substitution Reaction of Graphite Powders and Their Use for Mechanical Reinforcement), (IF=5.58). 13. F. Liu, L. Li, F. Y. Mo, J. Chen, S. Z. Deng, N. S. Xu, Crystal Growth & Design 10 (2010) 5193, (A Catalyzed-growth Route to Directly Form Micropatterned WO2 and WO3 Nanowire Arrays with Excellent Field Emission Behaviors at Low Temperature)，(IF factor =4.89). 14. F. Liu, P. J. Cao, H. R. Zhang, J. Q. Li, H. J. Gao, Nanotechnology 15 (2004) 949, (Controlled Self-assembled Nanoaeroplanes, Nanocombs, and Tetrapod-like Networks of Zinc Oxide), (IF factor =4.0). 15. Z. Xu, F. Liu*, D. K. Chen, T. Y. Guo, S. Y. Jin, S. Z. Deng, N. S. Xu and J. Chen*, CrystEngComm 17 (2015) 1065 (A simple SVS method for obtaining large-scale WO3 nanowire cold cathode emitters at atmospheric pressure and low temperature) , (IF=4.03). 16. Study of the Interface Interaction Mechanism Between 9,10-Bis(4-(1,2,2-triphenylvinyl) styryl)anthracene Film and Si Substrate, Shunyu Jin, Fei Liu∗(共同通讯作者), Shaozhi Deng, Xiang Zhou, Jun Chen, and Ningsheng Xu∗, Sci. Adv. Mater. 7 (2015) 1694-1700, (IF=2.60). 17. F. Liu*, L. F. Li, T. Y. Guo, H. B. Gan, X. S. Mo, J. Chen, S. Z. Deng, N. S. Xu, Nanoscale Research Letters, 7 (2012) 454, (Investigation on the Photoconductive Behaviors of An Individual AlN Nanowire Under Different Excited Lights) , (IF=2.78). 18. Shunyu Jin, Yan Tian, Fei Liu∗(共同通讯作者), Shaozhi Deng, Jun Chen and Ningsheng Xu*, (Exploring the Intrinsic Piezofluorochromic Mechanism of TPE-An by STS Technique), Nanoscale Research Letters, 10 (2015) 348, P1-P8, (IF=2.78). 19. F. Liu, W. J. Liang, Z. J. Su, J. X. Xia, S. Z. Deng, J. Chen, N. S. Xu, J. F. Tian, C. M. Shen, H. J. Gao, Ultramicroscopy 109 (2009) 447，(Fabrication and Field Emission Properties of Boron Nanowire Bundles) , (IF=2.44). 20. F. Liu, P. J. Cao, H. R. Zhang, C. M. Shen, Z. Wang, J. Q. Li, H. J. Gao, J. Crystal Growth 274 (2005) 126，( Well-aligned Zinc Oxide Nanorods and Nanowires Prepared without Catalyst ) , (IF=1.7). 21. F. Liu*, Z. J. Su, W. J. Liang, F. Y. Mo, L. Li, S. Z. Deng, J. Chen, N. S. Xu, Chin. Phys. B 18 (2009) 2016，(Controlled Growth and Field Emission of Vertically Aligned AlN Nanostructures with Different Morphologies) , (IF=1.6). 22. F. Liu*, F. Y. Mo, L. Li, Z. J. Su, Z. Q. Huang, S. Z. Deng, J. Chen, N. S. Xu, Chin. Phys. B 19 (2010) 107205，(No-Catalyst growth of Vertically-aligned AlN Nanocone Field Electron Emitter Arrays with High Emission Performance at Low Temperature) , (IF=1.6). 23. F. Liu*, L. F. Li, Z. J. Su, S. Z. Deng, J. Chen, N. S. Xu, Nanorods (英文论著), Chapter 9，Intech Press, 2012, (The Controlled Growth of Long AlN Nanorods and In-situ Investigation on Their Field Emission Properties), (ISBN：978-953-51-0209-0). 24. Y. Huang, F. Liu, Q. Luo, Y. Tian, Q. Zou, C. Li, C. M. Shen, S. Z. Deng, C. Z. Gu, N. S. Xu, H. J. Gao, Nano Research, 5 (2012) 896, (Fabrication of Patterned Boron Carbide Nanowires and Their Electrical, Field Emission and Flexible Properties), (IF factor =7.01). 25. Y. Ide, F. Liu, J. Zhang, N. Kawamoto, K. Komaguchi,Y. Bando, D. Golberg, J. Mater. Chem. A. 2 (2014) 4150, (Hybridization of Au nanoparticle-loaded TiO2 with BN nanosheets for Efficient Solar-driven Photocatalysis) , (IF factor =7.44). 26. L. H. Liang, F. Liu, D. X. Shi, W. M. Liu, X. C. Xie, H. J. Gao, Phys. Rev. B 72 (2005) 035453. (Nucleation and Reshaping Thermodynamics of Ni as Catalyst of Carbon Nanotubes ), (IF factor =3.74). 27. J. F. Tian, F. Liu, C. M. Shen, H. R. Zhang, T. Z. Yang, L. H. Bao, X. J. Wang, D. T. Liu, H. Li, X. J. Huang, J. Q. Li, L. Q. Chen, H. J. Gao, J. Mater. Res. 22 (2007) 7, (A New Route to Single Crystal Vanadium Dioxide Nanoflakes via Thermal Reduction) , (IF factor =1.65). 28. Z. L. Li, F. Liu, N. S. Xu*, J. Chen and S. Z. Deng, J. Crystal Growth 312 (2010) 520，(A Study of Control Growth of Three-dimensional Nanowire Networks of Tungsten Oxides: From Aligned Nanowire through Hybrid Nanostructures to 3D Networks) , (IF factor =1.7). 29. Z. L. Li, F. Liu, N. S. Xu*, J. Chen, S. Z. Deng, J. Vac. Sci & Technol. B 27 (2009) 2420, (Improving Field-emission Uniformity of Large-area W18O49 nanowire Films by Electrical Treatment) , (IF factor =1.46). 30. L. L. Jiang, T. Z. Yang, F. Liu, J. Dong, Z. H. Yao, C. M. Shen, S. Z. Deng, N. S. Xu, J. N. Yao, H. J. Gao, Adv. Mater. 25 (2013) 250, (Controlled Synthesis of Large-scale, Uniform, Vertically-standing Graphene for High-performance Field Emitters)，(IF factor =17.5).