Working Experience

01/2003～present Dalian University of Technology, Liaoning, China Teacher and researcher. Responsibilities included: 1. Teaching the courses of Metal Material Science and Mechanical Engineering Materials. 2. Researching and developing in biomedical materials and devices, especially the endovascular stents. 

11/2009～04/2010 Institute of Biomedical Engineering, Department of Engineering Science, University of Oxford. Academic Visitor. Researching Nitinol endovascular stent, Mainly focused on its processing which including laser cutting, acid pickling, electropolishing and dimension shaping. 

03/2009～09/2009 Liaoning Biomedical Materials R&D Center Co. Ltd. The project of Engineering Practice for Young Teachers. Helping the corporation to found a stent product line.

Education

09/1999～06/2006 Ph.D. of Biomedical Engineering Dalian University of Technology Ph.D. thesis: Finite Element Analysis of the Mechanical Behavior of Coronary Stent and Its Structure Optimization 

09/1997～09/1999 Master of Materials Science Dalian University of Technology 

09/1993～09/1997 Bachelor of Metallic Materials and Heat Treatment Dalian University of Technology 

Technical Qualifications 

Have been engaged in the research of biomedical materials and devices since 1997, and specializes in the design and optimizing, processing (including the laser cutting and electropolishing) and performance testing of endovascular stents. Recently was mainly devoted to the research of Micro-arc Oxidation (MAO) of titanium alloys and the development of new biodegradable Fe-based alloys which can be potentially used for endovascular stents. To date, have been involved in several national and local governmental research projects: R&D of New Type of Surgical Implant, Dalian Science and Technology Committee No.[1998]97; R&D of Endovascular Stent, National 9th Five Years 863 Projects, No.715-002-0240; R&D of Coronary Stent, National Science and Technology Committee, No.96-907-04-05; Basic Research on the Surface Modification and the Blood Compatibility of Biomedical Materials, National Natural Science Fund, No.50081001; R&D of Endovascular stent and Its Drug Coatings, National 10th Five Years 863 Projects, No.2002AA326010; Research on the degradation of bioabsorbed hybrid-drug-contained stent coating and its delivery mechanism, National Natural Science Fund, No.30870633. Awards Receipiant of the outstanding achievement award for successful completion of the research project of “R&D of Coronary Stent, National Science and Technology Committee, No.96-907-04-05”.

Main projects 

1.Wang Wei-qiang, Qi Min, Zhang Jing-ying, Zhao Hong. Preparation and bone tissue compatibility of titania coating with micro/nano dual structure through MAO. The National Natural Science Foundation of China (Grant No. : 51371024), 01/2014 - 12/2017. Project funding: ¥800,000.

2.Wang Wei-qiang, Dong Xu-feng. Studies on electroforming preparation of biodegradable Fe-Zn alloy and its corrosion control mechanism. The General Scientific Research Project of Liaoning Education Department (Grant No. : L2012017), 08/2012 -07/ 2015. Project funding: ¥30,000. 

Publications

[1] Qiaochu Li, Xiaohua Mina^⁎, Pengfei Bai, Weiqiang Wang, Xiaojie Tao, Gongcheng Zhong, , Shuyu Bai, Jie Zhao. Microstructure, mechanical properties and springback behaviour of Ti‑6Al‑4V alloy connection rod for spinal fixation device, Materials Science & Engineering C, 2019.1.1, 94: 811~812.

[2] Yada Li^#, Weiqiang Wang^#*, Huiying Liu, Jingwu Lei, Jingying Zhang, Hongzhi Zhou, Min Qi^*, Formation and in vitro/in vivo performance of “cortex-like” micro/nano-structured TiO₂ coatings on titanium by micro-arc oxidation, Materials Science & Engineering C, 2018.6.1, 87: 90~103.

[3] WANG Wei-qiang^⁎, JIANG Jie, LIANG Jing, YU Feng-yun. Effects of Electrodeposition Conditions and Heat Treatment on Microstructure of Fe-5Zn Alloy , 2017.12.23, 30(6)：95~102. (In Chinese) 

[4]  Yada Li, Weiqiang Wang*，Jiatong Duan，Min Qi*. A super-hydrophilic coating with a macro/micro/nano triple hierarchical structure on titanium by two-step micro-arc oxidation treatment for biomedical applications，Surface and Coatings Technology，2017.2.15，311：1~9.

[5]  Hong-Zhi Zhou，Ya-da Li，Lin Liu，Xiao-Dong Chen，Wei-Qiang Wang, Guo-Wu Ma，Yu-Cheng Su，Min Qi*，Bin Shi*. Early osseointegration of implants with cortex-like TiO2 coatings formed by micro-arc oxidation: A histomorphometric study in rabbits.，J Huazhong Univ Sci Technolog Med Sci，2017.2.01，37（1）：122~130.

[6] ＷANG Weiqiang^⁎, ZHANG Huijuan, QI Min. Finite analysis of the compression in deployment and pulsating service behavior of the big band and Z-shaped self-expanding stent.Journal of Functional Materials,2016.5.01，47（04）：4023~4027. (In Chinese) 

[7] ZHANG Huijuan, WANG Weiqiang*, QI Mi.  Finite element analysis of the effect of self-expansion stent geometry on its performance. Journal of Functional Materials,2016.5.01，47（04）：4094~4098. (In Chinese) 

[8] ZHOU Hong-zhi, LI Ya-da, LIU Huan, LIU Lin, WANG Wei-qiang, MA Guo-wu, QI Min. Micro-CT Aanlysis of Osseointegration of Cortex-like Titania Implant Coatings with Micro-are Oxidation. Journal of Oral Science Research，2016.7.01，32（07）：676~680. (In Chinese) 

[9] Wang WQ*, Wang J, Qi M. Microstructure and in vitro biodegradable properties of Fe-Zn alloys prepared by electroforming Advanced Materials Research, 2014; 1033-1034: 1200-1206. 

[10] Liu ZF, Wang WQ, Liu HY, Wang TY, Qi M. Formation and characterization of titania coatings with cortex-like slots formed on Ti by micro-arc oxidation treatment. Applied Surface Science, 2013; 266: 250-255. 

[11] Liu ZF, Wang WQ, Qi M. A porous TiO2 coating with vermiform morphology formed on Ti through micro-arc oxidation. Advanced Materials Research, 2013; 652-654:1818-1821. 

[12 Wang Wei-qiang, Lu Shan, Qi Min. Powder-metallurgical preparation and biodegradation property of Fe-Zn alloy. Journal of Functional Materials, 2013; 44(4):468-470. (In Chinese) 

[13] Qi Min, Si Chao-yang, Wang Wei-qiang. Stress change during the expanding process of magnesium alloy stents with different strut shapes and sizes. JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH, 2010; 14(38): 7133~7135. (In Chinese) 

[14] Deng Xi-guang, Wang Wei-qiang, Qi Min. Study on the corrosion behavior of AZ31 magnesium alloy in Hank’s simulated body fluid. Journal of Functional Materials, 2009; 40(11): 1884~1887. (In Chinese) 

[15] Wang Wei-qiang, Wang Li, Yang Da-zhi, Qi Min. Design Optimization of Endovascular Stent by Finite Element Method. Journal of Biomedical Engineering, 2008; 25(2): 372~377. (In Chinese) 

[16] Wu Wei, Wang Wei-qiang, Yang Da-zhi, Qi Min. Stent expansion in curved vessel and their interactions: A finite element analysis. Journal of biomechanics，2007; 40(11): 2580-2585. 

[17] Zhang Qing-bao, Wang Wei-qiang, Qi Min, Liang Dong-ke, Yang Da-zhi. Finite element analysis of expansion behavior of coronary stents with different materials. Journal of Functional Materials, 2007; 1(38): 130-134. (In Chinese) 

[18] Wang Wei-qiang, Liang Dong-ke, Yang Da-zhi, Qi Min. Analysis of the transient expansion behavior and design optimization of coronary stents by finite element method. Journal of biomechanics, 2006; 39(1): 21-32. 

[19] Wang Wei-qiang, Yang Da-zhi, Qi Min. Finite Element Analysis of the Expansion Behavior of Coronary Stents. Journal of Biomedical Engineering, 2006; 23(6): 1258~1262. (In Chinese) 

[20] Wang Wei-qiang, Yang Da-zhi, Qi Min. Finite Element Analysis of the Mechanical Property of the Resistance to Compressing of the Coronary Stent. Journal of Biomedical Engineering, 2006; 23(5): 1008~1012. (In Chinese) 

[21] Zhang Qing-bao, Wang Wei-qiang, Qi Min, Liang Dong-ke, Yang Da-zhi. Finite Element Analysis on the Crimped Mechanical Behavior of Coronary Stents. Beijing Biomedical Engineering, 2006; 25(4): 366-370. (In Chinese) 

[22] Wang Wei-qiang, Liang Dong-ke, Yang Da-zhi, Qi Min. The finite element analysis of the transitorily expanding process and design optimization of coronary stent system. Chinese Journal of Biomedical Engineering, 2005; 24(3): 313-318.(In Chinese) 

[23] Liang Dong-ke, Yang Da-zhi, Qi Min, Wang Wei-qiang. Finite Element Analysis of a Stent Implantation in a Stenosed Artery. Key Engineering Materials. 2005, 288-289: 571-574. 

[24] Liang Dong-ke, Yang Da-zhi, Qi Min, Wang Wei-qiang. Finite Element Analysis of the Implantation of a Balloon-Expandable Stent in a Stenosed Artery. International journal of cardiology, 2005; 104(3): 314-318. 

Patents 

[1] Wang Wei-qiang，Qi Min，Wang Juan，Lu Shan. A new preparation method of biodegradable Fe-Zn alloy tubular material applied in intravascular stents. 2014, China. Patent No: ZL201210091212.6. 

[2] Qi Min, Wang Wei-qiang，Liu Zhen-fei. A preparation technics of TiO2 film with folded-grooves morphology and hence having super wettability. 2014, China. Patent No: ZL201210096780.5. 

[3] Qi Min, Yang Da-zhi, Zhao Hong, Gao Zhen-yu, Liang Dong-ke, Wang Wei-Qiang. An anti-jump laser-cutting nitinol self-expandable stent. 2007, China. Patent No: ZL200420150534.4.

[4] Qi Min, Wang Wei-qiang，Deng Xi-guang，Yang Da-zhi. An Anti-Dogboning Mesh Tube Endovascular Stent. 2007, China. Patent No: ZL200720011814.0. 

[5] Yang Da-zhi, Wang Wei-qiang, Qi Min, Liang Dong-ke. A Non-Foreshortening Mesh Tube Endovascular Stent. 2007, China. Patent No: ZL200520003888.0. 

[6] Yang Da-zhi, Wang Wei-qiang, Qi Min, Liang Dong-ke. An Anti-Dogboning Mesh Tube Endovascular Stent. 2006, China. Patent No: ZL200520003884.2. 

[7] Qi Min, Yang Da-zhi, Zhao Hong, Gao Zhen-yu, Liang Dong-ke, Wang Wei-qiang. A Laser Cutted Nitinol Self Expanding Anti-Leaping Stent. 2007, China. Patent No: 200420150534.4.

• [1][论文]关世伟.Qi Min,Wang Weiqiang.王舒月.Enhanced cytocompatibility of Ti6Al4V alloy through selective removal of Al and V from the hierarchical micro-arc oxidation coating[J],2021,541:148547-

• [2][论文]Wang Weiqiang.Li, Yan.Zheng, Xingchuan,yufengyun,Li, Yada,Xue, Xianda,Qi Min.Formation and cytocompatibility of a hierarchical porous coating on Ti-20Zr-10Nb-4Ta alloy by micro-arc oxidation[J],2021,404

• [3][论文]Li, Yada.Wang, Weiqiang,Qi, Min.Yu, Fengyun,Wang, Dongjiao,Guan, Shiwei,Li, Yan.Characterization and cytocompatibility of hierarchical porous TiO2 coatings incorporated with calcium and strontium by one-step micro-arc oxidation[J],EI、PubMed、SCIE,2020,109:110610

• [4][论文]Guan, Shiwei.Qi, Min,Wang, Weiqiang.Li, Yada.Morphology evolution of the porous coatings on Ti-xAl alloys by Al adding into Ti during micro-arc oxidation in Na2B4O7 electrolyte[J],SCIE,2020,395

• [5][论文]Li, Yada.Wang, Weiqiang,Qi, Min.Liu, Huiying,Lei, Jingwu,Zhang, Jingying,Zhou, Hongzhi.Formation and in vitro/in vivo performance of "cortex-like" micro/nano-structured TiO2 coatings on titanium by micro-arc oxidation.[J],PubMed、SCIE、EI,2018,87:90-103

• [6][论文]Li, Yada.Wang, Weiqiang,Qi, Min.Duan, Jiatong.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],SCIE、EI,2017,311:1-9

• [7][论文]Wang, WQ.Liang, DK,Yang, DZ,Qi, M.Analysis of the transient expansion behavior and design optimization of coronary stents by finite element method[J],SCIE、EI、PubMed,2006,39(1):21-32

• [8][论文]王伟强.Wang, Wei-Qiang(wangwq@dlut.edu.cn).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],EI、CSCD,2017,30(6):95-102

• [9][论文]王伟强.Wang, W.; School of Materials Science and Engineering, Dalian University of TechnologyChina; email: wangwq@dlut.edu.cn.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],PKU、ISTIC、CSCD、Scopus,2016,47(4):4023-4027