刁东风阅读次数 [6168] 发布时间 :2015-10-04 18:24:45
姓 名:刁东风(工学博士) (English CV)
职 称:特聘教授,博士生导师,深圳大学纳米所所长, 深圳大学电镜中心主任
电子信箱:dfdiao(at)szu.edu.cn
电 话 :0086-755-2690-2415
研究领域: 纳米表面制造与摩擦电子学
国际杂志编委:Lubrication Science, Friction
1.工作简历
刁东风,工学博士,教授,博士生导师,深圳大学纳米表面科学与工程研究所(纳米所)所长,深圳大学电镜中心主任。1988年4月-1992年12月留学于日本东北大学取得工学博士学位;1993年1月-1994年3月日本东北大学助教;1994年4月-1994年12月日本静冈大学讲师,1995年1月-2001年3月日本静冈大学副教授(1996年获得日本学术振兴会杰出青年基金,在该基金的资助下1996年2月-8月在美国俄亥俄州立大学工作);2003年11月-2013年10月任西安交通大学教育部现代设计及转子轴承系统重点实验室主任;2013年1月起任深圳大学纳米所所长,2016年7月起任深圳大学电镜中心主任。此间曾多次交流访问世界著名研究机构(日本航空宇宙技术研究所研究员1999.7 -2001.3);大阪大学接合技术研究所访问教授2003.9 -2004.3 );香港城市大学材料物理系访问教授( 2004.5 -2004.6王宽城奖励计划);美国加州大学伯克利分校机械系访问教授 2006.4-2006.5);东京大学材料系访问教授(2010.10 -2010.10 日本学术振兴会高访计划);东京大学访问教授(2012.1 -2012.3 留学基金委博士生导师交流计划))以及多次在国际学术会议做邀请报告。至今已发表论文200余篇(SCI检索杂志论文80余篇((Nano Energy, Nanoscale, Carbon, Acta- Materialia, Applied Physics Letters, Friction, ASME-Journal of Tribology, etc),最佳单篇被SCI论文引用超过200次),发明专利20余项(两项专利已转化成产品核心技术)。自2013年以来,在深圳大学纳米所开展纳米表面设计-制造-检测-传感-应用5个方向研究(包括:先进纳米表面制造科学基础与工程技术装备研究;纳米表面的超低摩擦发电原理与应用技术及相关测设装备研究;纳米表面的自旋电子学与光电传感学研究)、为国家自然科学基金“纳米制造基础研究重大研究计划No.91323303”开辟新的碳纳米结构表面的光磁机电研究领域。
2.研究方向(纳米表面科学与工程:Nanosurface Science and Engineering)
(1) ECR纳米表面制造科学与技术及传感特性(Nanosurfacing Science&Technology and Sensor)
ECR超高真空气固两相源纳米机能加工系统的设计与制造;纳米碳基薄膜的结构与形貌加工;电子-离子照射下纳米碳膜的生长机理与电磁光特性及器件系统化研究。
(2) 摩擦电子学与量子摩擦学(Triboelectronics&Triboquantum)
高精度摩擦磨损表面形貌与摩擦发电多功能试验仪器的设计与制造;极限环境下超低摩擦测量技术;接触式定位界面的摩擦位移测试技术;摩擦发电测试技术,原子分辨透射电镜下的原位接触摩擦测试技术;量子力学解析方法研究;摩擦作用下边界量子阱的电子态的变化规律(价电子极化特性)与超低摩擦的关系及摩擦界面电荷积累传输以及与自旋电子的关系等特性研究。
3.目前承担的研究项目
I. 国家自然科学基金
(1)高密度纳石墨烯嵌入式纳米表面的低摩擦高效率发电原理研究(面上批号:51575359, 2016.01--2019.12 进展)
(2)功能化大面积纳米结构的模板调制成形基础研究(重大研究计划集成批号:91323303, 2014.01--2017.12)
(3)球形纳米粒子气膜的润滑原理研究(批号:51175405,2012.01--2015.12 结题)
(4)ECR碳基纳米表面的极端制造原理与方法研究(重大培育批号:90923027,2010.01--2012.12结题)
(5)ECR-A1203纳洞充Co磁记录体的摩擦退磁防护与检测(批号:50775173, 2008.01--2010.12 结题)
(6)ECR 纳米碳膜的制备及摩擦学行为研究(批号:50475092, 2005.01--2007.12结题)
II. 国际自然科学基金
(1)ECR碳基薄膜的超低摩擦接触机理研究(NSFC 海外联合基金2010.07--2011.06结题)
(2)ECR碳基纳米纹理与结构薄膜的摩擦接触机理研究(美国 TTRF 基金:2009.01--2009.12结题 )
(3)ECR微型转子轴承系统起停摩擦学行为测试方法研究(日本NSK-EMTAF 基金:2005.01--2007.01结题)
III. 国家863研发项目
(1)ECR表面纳米机能加工系统的研发及其应用(批号:2007AA04Z307,2007.10-2010.06结题)
IV. 国际合作项目
(1)信息机械系统摩擦定位界面的接触行为研究(日立研究所:2004.09--2012.03结题)
(2)微纳粒子环境下磁性载体摩擦磨损退磁特征研究(日立研究所:2008.04--2012.03结题)
(3)高温度条件下精密球轴承的密封特性研究(日本精工NSK基础研究所:2005.04--2013.03结题)
(4)打印机清洁系统的摩擦学行为研究(日本理光印刷系统基础研究部:2005.09--2008.09结题)
V. 高等学校博士学科点专项科研基金
(1)滑动接触下磁记录介质数据丢失/退磁及纳米碳膜控制作用研究(2013.01--2015.12)
VI. 深圳市基础布局项目
(1)低能电子照射下二维材料边缘嵌入式纳米表面的设计制造及应用研究(学科布局:2016.07-2019.06进展)
4.SCI-Publications
= 2018 = *corresponding author
(50) Xi Zhang and Dongfeng Diao*, Ultrahigh responsivity of self-powered graphene nanocrystalline embedded carbon film/silicon photodetector induced by edge trapping centers, ACS Nano, submitted.
(49) Peidong Xue#, Cheng Chen# and Dongfeng Diao*, Highly sensitive flexible strain sensor based on wrinkled graphene nanocrystallite carbon film, AFM, submitted.
(48) Kun Sun, Xue Fan and Dongfeng Diao*, Contact-focusing electrons induced fast low friction in amorphous carbon film, ACS applied materials & interfaces, submitted.
(47) Xi Zhang, Da Peng, Zezhou Lin,Wencong Chen and Dongfeng Diao*, Edge effect on the photodetection ability of the graphene nanocrystalline embedded carbon film coated on p-silicon, Rapid Research Letter under revision.
(46) Liangliang Huang, Yuanyuan Cao and Dongfeng Diao*, Surface N-doped graphene sheets induced high electrochemical activity for selective ascorbic acid sensing, Sensors and Actuators B:Chemical, under review.
(45) Weiqiang Zhang, Pengfei Wang, Kun Sun, Chao Wang, Dongfeng Diao*, Intelligently detecting and identifying liquids leakage combining triboelectric nanogenerator based self-powered sensor with machine learning, Nano Energy, under review.
(44) Xi Zhang, Zezhou Lin, Da Peng and Dongfeng Diao*, Effects of nanostructure on photoelectric property of graphene-nanocrystalline embedded carbon film coated on n-Silicon, Surface and Coatings Technology, under review.
(43) Liangliang Huang, Yuanyuan Cao and Dongfeng Diao*, N-doped graphene sheets induced high electrochemical activity in carbon film, Applied Surface Science, accepted (DOI: https://doi.org/10.1016/j.apsusc.2018.11.075).
(42) Xue Fan and Dongfeng Diao*, Ion excitation and etching effects on top-surface properties of sp2 nanocrystallited carbon films, Applied Surface Science, 462(2018)669-677.
(41) Kun Sun, Dongfeng Diao*, Lei Yang, Weiqiang Zhang, Xue Fan, Nanosized Graphene sheets enhanced electron field emission behavior in pure carbon film, Thin Solid Films, 664(2018)124-129.
(40) Wencong Chen, Xi Zhang and Dongfeng Diao*, A fast semi-analytical method for precise prediction of ion energy distribution functions and sheath electric field in multi-frequency capacitively coupled plasmas, Applied Physics Express, 11(2018)056201.
(39) Weiqiang Zhang, Dongfeng Diao*, Kun Sun, Xue Fan and Pengfei Wang, Study on friction-electrification coupling in sliding-mode triboelectric nanogenerator, Nano Energy, 48(2018)456-463.
(38) Cheng Chen, Peidong Xue, Xue Fan, Chao Wang and Dongfeng Diao*, Friction-induced rapid restructuring of graphene cap layer at sliding surfaces: short run-in period, Carbon, 130(2018)215-221.
(37) Liangliang Huang, Yuanyuan Cao and Dongfeng Diao*, Nanosized graphene sheets induced high electrochemical activity in pure carbon film, Electrochimica Acta, 262 (2018)173-181.
(36) Peidong Xue, Lei Yang and Dongfeng Diao*, Nanocrystalline/amorphous Biphase Enhanced Mechanical Properties in Multilayer Carbon Films, Surface and Coatings Technology, 334(2018)1-6.
(35) Wencong Chen, Xi Zhang and Dongfeng Diao*, Low-energy electron excitation effect on formation of graphene nanocrystallites during carbon film growth process, Applied Physics Letters, 111(2017)114105.
(34) Pengfei Wang and Dongfeng Diao*, Low Friction of Graphene Nanocrystalline Embedded Carbon Nitride Coatings Prepared with MCECR Plasma Sputtering, Surface and Coatings Technology, 332(2017)153-160.
=To 2017.10.31 = *
(33) Lei Yang and Dongfeng Diao*, Structure and Dynamics of Water Confined in Graphene Nanochannel Under Gigapascal High-Pressure: Dependence of Friction on Pressure and Confinement, Physical Chemistry Chemical Physics, 19(2017)14048-14054.
(32) Yuanyuan Cao and Dongfeng Diao*, Physical mechanism of surface roughening on the radial core-shell nanowire heterostructure with alloy shell, AIP Advances, 7(2017)055006.
(31) Chao Wang and Dongfeng Diao*, Self-magnetism induced large positive magnetoresistance at room tempreature region in graphene nanocrystallited carbon film, Carbon, 112 (2017) 162-168.
= 2016 =
(30) Chao Wang, Cheng Chen and Dongfeng Diao*, Top surface modification of carbon film on its structure, morphology and electrical resistivity using electron-ion hybrid irradiation in ECR plasma, Surface and Coatings Technology, 308(2016)50-56.
(29) Lei Yang#, Gaijuan Hu#, Dongqing Zhang and Dongfeng Diao*, Photoelectric behavior of graphene sheets embedded carbon film on p-silicon substrate, Applied Physics Letters 109, 031910(2016).
(28) Cheng Chen, Chao Wang and Dongfeng Diao*, Low energy electron irradiation induced carbon etching:triggering carbon film reacting with oxygen from SiO2 subsrate, Applied Physics Letters 109, 053104(2016).
(27) Lei Yang, Qi-Zhang and Dongfeng Diao*, Cross-linking-induced frictional behavior of multilayer graphene:origin of friction, Tribology Letters 62(2016)33.
(26) Chen Cheng, Xue Fan and Dongfeng Diao*, Low-energy electron irradiation induced top-surface nanocrystallization of amorphous carbon film, Applied Surface Science, 384 (2016) 341–347.
(25) Peidong Xue, Lei Yang and Dongfeng Diao*, ECR sputterring and eletron/ion alternative irradiation for multilayer carbon film fabrication with tunable layer thickness, Surface and Coatings Technology, 296 (2016) 26–32.
(24) Xue Fan and Dongfeng Diao*, In situ TEM obervation of adhesion induced re-indentation, Applied Surface Science, 362 (2016) 49– 55.
= 2015 =
(23) Lei Yang and Dongfeng Diao*, Tensile Strain-induced Magnetism Transition in Multilayer Graphene with Excess Electrons: Stability of the Edge-Quantum Well, AIP ADVANCES 5, 127106 (2015).
(22) Meiling Guo, Dongfeng Diao*, Lei Yang, Xue Fan, Restructured graphene sheets embedded carbon film by oxygen plasma etching and its tribological properties, Applied Surface Science 357 (2015) 771–776.
(21) Chao Wang, Xi Zhang and Dongfeng Diao*, Nanosized graphene crystallite induced strong magnetism in pure carbon, Nanoscale, 7(2015)4475-4481.
(20) Wenlei Zhang and Dongfeng Diao*, Three-layered sandwich structured carbon film prepared by ECR ion/electron/ion alternative irradiation technigure, Surface and Coatings Technology, 278(2015)12-17.
(19) Qi Zhang, Dongfeng Diao*, Momoji Kubo, Nanoscratching of multi-graphene layers by molecular dynamics simulations, Tribology International, 88(2015)85–88
(18) Zhiru Yang, Dongfeng Diao*, Hongyan Fan, Xue Fan, Experimenal study on Load Capacity of Nanoparticles-laden Gas Film in Thrust Bearing, Industrial Lubrication and Tribology, 67-3(2015)233-239.
(17) T. Kang, S.Y. Huang, J.J. Huang, Q.H. Li, Dongfeng Diao* , The effect of diamond-like carbon films on fretting wear behavior of orthodontic archwire-bracket contacts, Journal of Nanoscience and Nanotechnology, 15 (2015) 4641-4647.
= 2014 =
(16) Xi Zhang, Chao Wang, Chang Q Sun and Dongfeng Diao*, Magnetism induced by excess electrons trapped at diamagnetic edge-quantum well in multi-layer graphene, Appl. Phys. Lett., 105 (2014) 042402.
(15) Cheng Chen, Dongfeng Diao*, Xue Fan, Lei Yang and Chao Wang, Frictional behavior of carbon film embedded with controlling-sized graphene nanocrystallites, Tribology Letters, 55 (2014) 429-435.
(14) Meiling Guo, Dongfeng Diao*, Xue Fan, Lei Yang, Liwei Yu, Scratch Behavior of Re-structured Carbon Coating by Oxygen Plasma Etching Technology for Magnetic Disk Application, Surface and Coatings Technology, 251 (2014) 128-134.
(13) Lei Yang and Dongfeng Diao*, Contact Stress Induced Micromagnetic Behavior in Magnetic Recording Disk, Tribology Letters, 54(2014)287-295.
(12) Hongyan Fan, Dongfeng Diao*, Zhiru Yang and Xue Fan, The Lubrication Performance of Nanoparticles-Laden Gas Film in Thrust Bearing under Non-Contact and Contact Conditions, ASME,Trans., Journal of Tribology,136 (2014) 034505.
(11) Zhiru Yang, Dongfeng Diao*, Xue Fan and Hongyan Fan, Nanoparticles-Laden Gas Film in Thrust Bearing, ASME,Trans., Journal of Tribology, 136(2014)043501.
= 2013 =
(10) Qi Zhang and Dongfeng Diao*, Dangling bonds Induced Cross-Linking Structure in Nanoscrached Graphene Layers, Surface &Coatings Technology, 237(2013) 230-233.
(9) S.Y.Huang, J.J.Huang, Dongfeng Diao* and Y.Z.Duan, Reduction of fluoride-induced corrosion and improvement of frictional properties by coating NiTi archwires with diamond-like carbon films, J Mater Sci: Mater Med, 24(2013)2287–2292.
(8) Cheng Chen and Dongfeng Diao*, Tribological Thermostability of Carbon Film with Vertically Aligned Grapheen Sheets, Tribology Letters, 50(2013)305-311.
(7) Xue Fan, Kenji Nose, Dongfeng Diao* and Toyonobu Yoshida, Nanoindentation Behavior of Amorphous Carbon Films Containing Nanocrystalline Graphite and Diamond Prepared by Radio Frequency Sputtering, Applied Surface Science, 273 (2013) 816-823.
(6) Zhiru Yang, Dongfeng Diao* and Lei Yang, Numerical Analysis on Nanoparticles-Laden Gas Film Thrust Bearing, CSME, Trans., J. Mech. Engineering, Vol.26, No.4(2013) 675-680.
(5) Dongfeng Diao*,Chao Wang, Xue Fan, Frictional Behavior of Nanostructured Carbon Films, Friction, 1(2013)63-71.
(4) Tianxiao Cai, Pengyu Zhang and Dongfeng Diao*, Carbon Coated Silicon during Sliding Wear against Si3N4 Ball, ASME,Trans., Journal of Tribology, 135 (2013) 021401-10.(3) Qi Zhang and Dongfeng Diao*, Potential of Graphene Layer Controlling NanoWear during C60 Intrusion by Molecular Dynamics Si mulation, Wear, 306 (2013)248-453.
(2) Chao Wang and Dongfeng Diao*, Magentic Behavior of Graphen Sheets Embedded Carbon Film Induced by Graphene Nano Crystallite, Appl. Phys. Lett. 102 (2013) 052402.
(1) DongfengDiao and Koji Kato, Wear and Wear Maps of Hard Coatings, Friction and Wear of Bulk Materials and Coatings (2nd Editi on), Elsevier B.V., 2013, Page 387-403.
