近5 年国际期刊论文

[1] Xufeng Dong, Min Qi, Yu Tong, Fei Ye. Solvothermal synthesis of single crystalline hexagonal cobalt nanofibers with high coercivity. Materials Letters, 2014, 128, 39~41.

[2] Chenguang Niu, Xufeng Dong, Hong Zhao, Min Qi. Properties of aniline-modified strontium titanyl oxalate-based electrorheological suspension. Smart Materials and Structures, 2014, 23, 075018.

[3] Xufeng Dong, Hong Zhao, Min Qi, Wanyong Tao. Titanium glycerolate-based electrorheological fluids with stable properties. Materials Research Express, 2014, 1, 025709.

[4] Chenguang Niu, Xufeng Dong, Min Qi. Enhanced electrorheological properties of elastomers containing TiO₂/urea core−shell particles. ACS Appl. Mater. Interfaces，2015, 7 (44): 24855~24863.

[5] Xufeng Dong*, Yu Tong, Ning Ma, Min Qi, Jinping Ou. Properties of cobalt nanofiber-based magnetorheological fluids. RSC Advances, 2015, 5, 13958~13963.

[6] Xufeng Dong*, Ning Ma, Hui Yang, Baoguo Han, Min Qi. The contribution of friction to electrorheological properties of a chrysanthemum-like particle suspension. RSC Advances, 2015, 5, 74656~74663.

[7] Ning Ma, Xufeng Dong*. Diammonium phosphate modified titanium dioxide suspensions with improved ER efficiency. Smart Materials and Structures, 2015, 24: 065009.

[8] Xufeng Dong, Chenguang Niu, Min Qi*. Enhancement of electrorheological performance of electrorheological elastomers by improving TiO₂ particles/silicon rubber interface. Journal of Materials Chemistry C, 2016, 4：6806~6815.

[9] Xufeng Dong*, Shuang Huo, Min Qi. Comparison on electrorheological performance between urea-coated and graphene oxide-wrapped core-shell structured amorphous titania nanoparticles. Smart Materials and Structures, 2016, 25: 015033.

[10] Chenguang Niu, Xufeng Dong*, Min Qi. Damping mechanism and theoretical model of electrorheological elastomers. Soft Matter, 2017, 13, 5409~5420.

[11] Yu Tong, Xufeng Dong*, Min Qi. High performance magnetorheological fluids with flower-like cobalt particles. Smart Materials and Structures, 2017, 26: 025023.

[12] Ning Ma, Ziqi Zhang, Xufeng Dong*, Qi Wang, Chenguang Niu, Baoguo Han. Dynamic viscoelasticity and phenomenological model of electrorheological elastomers. Journal of Applied Polymer Science, 2017, 134 (41):45407.  

[13] Ning Ma, Chenguang Niu, Xufeng Dong*, Baoguo Han. Electrorheological properties of carbon nanotube decorated TiO₂ nanoparticles. Materials Research Express, 2017, 4, 065701. 

[14] Ning Ma, Xufeng Dong*, Chenguang Niu, Baoguo Han. A facile electrostatic spraying method to prepare polyvinylpyrrolidone modified TiO₂ particles with improved electrorheological effect. Soft Materials, 2017, 15: 315~324.  

[15] Qi Wang, Xufeng Dong, Luyu Li, Jinping Ou*. A nonlinear model of magnetorheological elastomer with wide amplitude range and variable frequencies. Smart Materials and Structures, 2017, 26: 065010.

[16] Qi Wang, Xufeng Dong*, Luyu Li, Jinping Ou*. Study on an improved variable stiffness tuned mass damper based on conical magnetorheological elastomer isolators. Smart Materials and Structures, 2017, 26, 105028.

[17] Yu Tong, Xufeng Dong*, Min Qi. Improved tunable range of the field-induced storage modulus by using flower-like particles as the active phase of magnetorheological elastomers. Soft Matter, 2018, 14, 3504.

[18] Shengming Zhu, Xufeng Dong, Song Gao, Xiaozhe Jin, Hao Huang*, Min Qi. Uniformly grafting SnO₂ nanoparticles on ionic liquid reduced graphene oxide sheets for high lithium storage. Advanced Materials Interfaces, 2018, 1701685: 1~8.

[19] Qi Wang, Xufeng Dong*, Luyu Li, Jinping Ou*. Mechanical modeling for magnetorheological elastomer isolators based on constitutive equations and electromagnetic analysis. Smart Materials and Structures, 2018, 27, 065017.

[20] Chenguang Niu, Xufeng Dong, Xiaoyan Xiong, Min Qi. Preparation and viscoelasticity of anisotropic polyurethane composites filled with TiO2 particles. Journal of Applied Polymer Science. 2019，136(20), 47450

[21] Xufeng Dong,  Jingying Zhang, Lu Pang, Junting Chen, Min Qi, Shijie You and Nanqi Ren, An anisotropic three-dimensional electrospun micro/nanofibrous hybrid PLA/PCL scaffold, RSC Adv., 2019, 9, 9838 

[22] Guangshuo Wang*, Yingying Ma, Xufeng Dong, Yu Tong, Lina Zhang, Jingbo Mu, Yongmei Bai, Junxian Hou, Hongwei Che, Xiaoliang Zhang. Facile synthesis and magnetorheological Properties of Superparamagnetic CoFe₂O₄/GO nanocomposites. Applied Surface Science, 2015, 357:2131~2135.

[23] Baoguo Han*, Liqing Zhang, Shengwei Sun, Xun Yu, Xufeng Dong, Tianjiao Wu, Jinping Ou. Electrostatic self-assembled carbon nanotube/nano carbon black composite fillers reinforced cement-based materials with multifunctionality. Composites Part A: Applied Science and Manufacturing, 2015, 79: 103~115. 

[24] Guangshuo Wang*, Yingying Ma, Yu Tong, Xufeng Dong. Development of manganese ferrite/graphene oxide nanocomposites for magnetorheological fluid with enhanced sedimentation stability. Journal of Industrial and Engineering Chemistry, 2016, 48:142~150.

[25] Guangshuo Wang*, Yingying Ma, Yu Tong, Xufeng Dong. Synthesis characterization and magnetorheological study of 3-aminopropyltriethoxysilane-modified Fe₃O₄ nanoparticles. Smart Materials and Structures, 2016, 25: 035028.

[26] Guangshuo Wang*, Yingying Ma, Meixia Li, Cui, Guohua Cui, Hongwei Che, Jingbo Mu, Xiaoliang Zhang, Yu Tong, Xufeng Dong. Magnesium ferrite nanocrystal clusters for magnetorheological fluid with enhanced sedimentation stability. Solid State Sciences, 2016, 63: 70~75.

[27] Siqi Ding, Baoguo Han*, Xufeng Dong, Xun Yu, Yiqing Ni, Qiaofeng Zheng, Jinping Ou.  Pressure-sensitive behaviors, mechanisms and model of field assisted quantum tunneling composites. Polymer, 2017, 113:105~118.

[28] Guangshuo Wang*, Dexing Zhao, Yingying Ma, Zhixiao Zhang, Hongwei Che, Jingbo Mu, Xiaoliang Zhang, Yu Tong, Xufeng Dong. Synthesis of calcium ferrite nanocrystal clusters for magnetorheological fluid with enhanced sedimentation stability. Powder Technology, 2017, 322:47~53.

[29] Guangshuo Wang*, Yingying Ma, Yu Tong, Xufeng Dong, Meixia Li. Solvothermal synthesis, characterization, and magnetorheological study of zinc ferrite nanocrystal clusters. Journal of Intelligent Material Systems and Structures, 2017, 28(17): 2331~2338.  

[30] Yanfeng Ruan, Daocheng Zhou, Shengwei Sun, Xinyi Wu, Xun Yu, Jilin Hou, Xufeng Dong, Baoguo Han*. Self-damping cementitious composites with multi-layer graphene. Materials Research Express, 2017, 4, 075605.

[31] Zhen Li, Baoguo Han, Xun Yu, Sufen Dong, Liqing Zhang, Xufeng Dong, Jinping, Ou. Effect of nano-titanium dioxide on mechanical and electrical properties and microstructure of reactive powder concrete. Materials Research Express, 2017, 4, 095008.

[32] Guangshuo Wang, Yingying Ma*, Guohua Cui, Nannan Li, Xufeng Dong. Two-dimensional Fe₃O₄/MoS₂ nanocomposites for a magnetorheological fluid with enhanced sedimentation stability. Soft Matter, 2018, 14, 1917. 

[33] Jialiang Wang, Baoguo Han*, Zhen Li, Xun Yu, Xufeng Dong. Effect investigation of nanofillers on C-S-H gel structure with Si NMR. Journal of Materials in Civil Engineering-ASCE, 2019, 31(1): 04018352.

 [34]Li, Qiaochu,Min, Xiaohua,Bai, Pengfei,Wang, Weiqiang,Tao, Xiaojie,Zhong, Gongcheng,Bai, Shuyu,Zhao, Jie.Microstructure, mechanical properties and springback behaviour of   Ti-6Al-4V alloy connection rod for spinal fixation device[J],MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS,2019,94:811-820 

[35]王伟强,齐民.Formation and in vitro/in vivo performance of “cortex-like” micro/nanostructured TiO2 coatings on titanium by micro-arc oxidation[J],Materials Science & Engineering C,2018,87:90-103    

[36]李翘楚,闵小华,白鹏飞,王伟强,陶晓杰,钟功成,白树玉,赵杰.Microstructure, mechanical properties and springback behaviour of Ti-6Al-4V alloy connection rod for spinal fixation device[J],Materials Science and Engineering C,2018,94:811-820    

[37]Li, Yada,Wang, Weiqiang,Liu, Huiying,Lei, Jingwu,Zhang, Jingying,Zhou, Hongzhi,Qi, Min.Formation and in vitro/in vivo performance of "cortex-like" micro/nano-structured TiO2 coatings on titanium by micro-arc oxidation.[J],Materials science & engineering. C, Materials for biological applications,2018,87:90-103    

[38]王伟强,江杰,梁婧,于凤云.电沉积工艺参数及热处理对Fe-5Zn合金微观组织的影响[J],中国表面工程,2017,30(6):95-102  

[39] Li, Yada,Wang, Weiqiang,Duan, Jiatong,Qi, Min.A super-hydrophilic coating with a macro/micro/nano triple hierarchical   structure on titanium by two-step micro-arc oxidation treatment for   biomedical applications[J],SURFACE & COATINGS TECHNOLOGY,2017,311:1-9  

[40]Zhou, Hong-zhi,Li, Ya-da,Liu, Lin,Chen, Xiao-dong,Wang, Wei-qiang,Ma, Guo-wu,Su, Yu-cheng,Qi, Min,Shi, Bin.Early osseointegration of implants with cortex-like TiO2 coatings formed   by micro-arc oxidation: A histomorphometric study in rabbits[J],JOURNAL OF HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY-MEDICAL   SCIENCES,2017,37(1):122-130    

[41]王伟强,齐民.A super-hydrophilic coating with a macro/micro/nano triple hierarchical structure on titanium by[J],Surface and Coatings Technology,2017,311(0):1-9    

[42]王伟强,张会娟,齐民.大波段Z形镍钛自膨胀支架的植入压缩和脉动服役行为的有限元分析[J],功能材料,2016,47(4):4023-4027    

[43]周宏志,李亚达,刘唤,刘琳,王伟强,马国武,齐民.脑回形(cortex-like)微弧氧化膜钛种植体成骨的Micro-CT分析[J],口腔医学研究,2016,32(7):676-680    

[44]张静莹,梁文波,王伟强,孙鸿婉,许家顺.喷砂酸蚀处理促进 Ti6Al7Nb 表面钙磷沉积[J],功能材料,2015,46(4):4123-4127    

[45]Zou, C.,Kang, H.,Li, R.,Li, M.,Wang, W.,Chen, Z.,Wang, T..The effect of rotating magnetic field on the microstructure of in situ TiB2/Cu composites[A],4th International Conference on Advances in Solidification Processes, ICASP 2014,2014,117(1)    

[46]Wang W.Q.,Wang J.,Qi M..Microstructure and in vitro biodegradable properties of fe-zn alloys prepared by electroforming[A],4th International Conference on Chemical Engineering and Advanced Materials, CEAM 2014,2014,1033-1034:1200-1206    

[47]Qi, Min,Li, Yao-tian,Wang, Wei-qiang,Liu, Zhen-fei.Evolution of Nanopores on the Surface of Ti During MAO in Borate   Electrolyte[A],International Conference on Material Science and Material Engineering   (MSME),2014,53-57    

[48]Liu, Zhenfei,Wang, Weiqiang,Liu, Huiying,Wang, Tongyue,Qi, Min.Formation and characterization of titania coatings with cortex-like   slots formed on Ti by micro-arc oxidation treatment[J],APPLIED SURFACE SCIENCE,2013,266:250-255    

[49]王伟强,陆山,齐民.Fe-Zn合金的粉末冶金法制备及其生物降解特性研究[J],功能材料,2013,44(4):468-470    

[50]王伟强,齐民.A porous TiO2 coating with vermiform morphology formed on Ti throughmicro-arc oxidation[J],Advanced Materials Research,2013,652(1):1818-1821    

[51]Liu, Zhenfei,Wang, Weiqiang,Qi, Min.A porous TiO2 coating with vermiform morphology formed on Ti through   micro-arc oxidation[A],3rd International Conference on Advances in Materials Manufacturing   (ICAMMP 2012),2012,652-654:1818-1821        

[52]Li, Yada,Wang, Weiqiang,Liu, Huiying,Lei, Jingwu,Zhang, Jingying,Zhou, Hongzhi,Qi, Min.Formation and in vitro/in vivo performance of "cortex-like" micro/nano-structured TiO2 coatings on titanium by micro-arc oxidation.[J],Materials science & engineering. C, Materials for biological applications,2018,87:90-103            

[53]王伟强,齐民.Formation and in vitro/in vivo performance of “cortex-like” micro/nanostructured TiO2 coatings on titanium by micro-arc oxidation[J],Materials Science & Engineering C,2018,87:90-103