09/2015-09/2019, 哈尔滨工业大学，材料学，博士

09/2013-07/2015, 哈尔滨工业大学，材料工程，硕士

09/2009-07/2013, 河南科技大学，金属材料工程，学士

01/2023-至今，哈尔滨理工大学，建筑工程学院工程土木工程系，讲师

03/2023-至今，哈尔滨工程大学，生物医学材料与工程研究中心，博士后

12/2019-12/2022，哈尔滨工业大学，分析测试与计算中心，工程师

1、金属材料表面微弧氧化高性能功能涂层理论计算与制备及高端电镜表征技术

2、基于SLS打印技术耐高温吸波磁屏蔽功能结构一体化构件的制备计算与表征

3、轻质金属和中高熵合金的结构调控及低温条件强度-韧性双增机制研究及应用

1. 国家自然科学基金青年项目，3D打印多孔钛耦合UV交联壳聚糖水凝胶仿生三维微环境复合支架的可控设计及其骨再生机制，52101284，2022.01.01-2024.12.31，30万，在研，主持。

2. 国家自然科学基金联合基金项目，精准靶向牙周炎的Pik3ip1蛋白递送系统的构建及机制研究，2023.01.01 -2026.12.31，255万，在研，参与（5/9）。

3. 黑龙江省博士后面上项目资助，钛系高熵合金人工髋关节表面高性能非晶/晶体双相高熵涂层的制备与表征，2023.08.01 -2025.07.30，10万，在研，主持。

4. 黑龙江省省属高等学校基本科研业务费科研项目，钛铌锆锡中熵合金表面高熵非晶氧化物的制备及其在应力腐蚀耦合条件下的力学性能研究，217045466，2024.04-2026.03，20万，在研，主持。

5. 黑龙江省省属本科高校“优秀青年教师基础研究支持计划”，钛系高熵合金人工髋关节表面高性能非晶/晶体双相高熵涂层的原位制备及关节界面匹配性研究，YQJH2023246，2024.01.01-2026.12.31，20万，在研，主持。

6. 哈尔滨市科技创新人才项目（青年创新人才），3D打印钛铌锆锡钽高熵合金表面智能仿生涂层的制备及其生物力学相容性精准调控机制，CXRC20221111436，2022.11 -2024.11，120万，在研，参与（2/3）。

本科生教学：《土木工程材料》，《材料科学基础》，《材料分析与测试方法》

招收力学和材料相关背景的研究生，每年招收2名，欢迎各位同学报考，联系方式：duqing@hrbust.edu.cn

1. 发明专利：一种研究金属基体与陶瓷膜层界面断裂行为的SEM原位拉伸测试方法，ZL201911361116.7 [P]。

2. 发明专利：一种基于扫描电镜准原位拉伸EBSD与DIC信号同步采集的测试方法，ZL202110168800.4[P]。

3. 发明专利：采用微波水汽在钛微弧氧化涂层表面构建类似牙周膜纤维束的磷灰石纳米线的制备方法,ZL201710236450.4[P]。

4. 发明专利：一种利用扫描电镜原位测试生长于涂层表面的纳米材料柔性的方法，ZL202010121348.1[P]。

5. 发明专利：一种快速原位在钛微弧氧化涂层表面构建具有一定取向的磷灰石纳米棒的制备方法,ZL201710243367.X[P]。

6. 发明专利：一种聚焦离子束清理透射电子显微镜光阑的方法,ZL202010067583.5[P]。

7. 发明专利：一种利用聚焦离子束进行切割制备非均质材料透射样品的方法,ZL201911359367.1[P]。

8. 发明专利：基于钛表面多级孔结构制备复合生物活性涂层方法,ZL201410849716.9[P]。

9. 发明专利：一种聚焦离子束加工金属基硬质涂层透射电镜原位力学试样的制备方法,ZL201911424592.9[P]。

10. 计算机软件著作权：电子显微镜虚拟操作软件 V1.0,2021SR0601077[P]。

1.  魏大庆，邹永纯，杜青(副主编)等. 电子显微分析实验指导.哈尔滨工业大学出版社. 2021.06.

2.   邓昱，魏大庆，王英，陈振主编，杜青参与撰写.聚焦离子束：应用与实践；南京大学出版社.2023.12.

1. Qing Du, Daqing Wei, Yaming Wang, et al. The effect of applied voltages on the structure, apatite-inducing ability and antibacterial ability of micro arc oxidation coating formed on titanium surface[J].Bioactive Materials, 2018, 3(4):426-433. (SCI(Q1)中科院一区16.8).

2. Qing Du, Daqing Wei, Shaodong Wang, et. al, TEM analysis and in vitro and in vivo biological performance of the hydroxyapatite crystals rapidly formed on the modified microarc oxidation coating using microwave hydrothermal technique[J]. Chemical Engineering Journal, 2019, 373:1091-1110.(SCI(Q1)中科院一区16.7).

3. Qing Du, Daqing Wei, Yaming Wang, et.al. Microstructure and surface performance of hydroxyapatite-modified multilayer amorphous coating on Ti-rich TiNbZrSn medium entropy alloy: A comparative study [J].Surfaces and Interfaces, 2023, 41:103288. (SCI(Q2)中科院二区6.2).

4. Qing Du, Daqing Wei, Su Cheng, et al. Rapid structural evolution and bone inducing mechanism of the multilayer coating with silicon-doped hydroxyapatite crystals on the microwave water steaming-hydrothermally treated titania coating[J].Applied Surface Science, 2020, 539: 148153. (SCI(Q1)中科院一区7.3).

5. Du Qing, Wei Daqing, Liu Shang, et.al. The hydrothermal treated Zn-incorporated titania based microarc oxidation coating: Surface characteristics, apatite-inducing ability and antibacterial ability[J].Surface & Coatings Technology, 2018, 352. (SCI(Q2)中科院一区4.8).

6. Du Qing, Wei Daqing, Wang Shaodong, et al. Rapidly formation of the highly bioactive surface with hydroxyapatite crystals on the titania micro arc oxidation coating by microwave hydrothermal treatment[J].Applied Surface Science, 2019, 487(9):708-718.(SCI(Q1)中科院一区7.3).

7. Wei Daqing, Du Qing, Wang Shaodong, et.al. Rapid Fabrication, Microstructure, and in Vitro and in Vivo Investigations of a High-Performance Multilayer Coating with External, Flexible, and Silicon-Doped Hydroxyapatite Nanorods on Titanium[J]. ACS Biomater Sci Eng. 2019, 5(9):4244-4262. (SCI(Q2)中科院三区5.3).

8. Chen L, Ren J, Hu N, Qing Du, Daqing Wei. Rapid structural regulation, apatite-inducing mechanism and in vivo investigation of microwave-assisted hydrothermally treated titania coating[J]. RSC Advances, 2021, 11(13): 7305-7317. (SCI(Q2)中科院三区4.0).

9. Daqing Wei, Wei Feng, Qing Du, et.al. Titania nanotube/nano-brushite composited bioactive coating with micro/nanotopography on titanium formed by anodic oxidation and hydrothermal treatment[J].Ceramics International, 2015, 41(10):13115-13125. (SCI(Q1)中科院一区5.5).

10. Wei Daqing, Du Qing, Guo Shu,et al. Structures, bonding strength and in vitro bioactivity and cytotoxicity of electrochemically deposited bioactive nano-brushite coating/TiO₂ nanotubes composited films on titanium[J].Surface and Coatings Technology, 2018, 340:93-102. (SCI(Q2)中科院一区4.8).

11. Shi Wenjing, Du Qing, Niu Changlei, et.al. Enhanced Thermoelectric Performance of Yb-Filled Skutterudite with Bottom-Up Formed CoSi2 Nanoparticles [J]. ACS Applied Materials & Interfaces, 2022, 14(51): 56948-56956. (SCI(Q1)中科院二区10.383).

12. R. Zhou, D.Q. Wei, J.Y. Cao, W. Feng, S. Cheng, Q. Du, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. Synergistic Effects of Surface Chemistry and Topologic Structure from Modified Microarc Oxidation Coatings on Ti Implants for Improving Osseointegration[J]. ACS Applied Materials & Interfaces, 2015, 7(16):8932-8941. (SCI(Q1)中科院二区10.3).

13. R. Zhou, D.Q. Wei, J.Y. Cao, W. Feng, S. Cheng, Q. Du, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. Conformal coating containing Ca, P, Si and Na with double-level porous surface structure on titanium formed by a three-step micro arc oxidation[J]. RSC Advances, 2015,5:28908-28920.(SCI(Q2)中科院三区4.0).

14. R. Zhou, D.Q. Wei, S. Cheng, W. Feng, Q. Du, H.Y. Yang, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. Structure, MC3T3-E1 Cell Response, and Osseointegration of Macroporous Titanium Implants Covered by a Bioactive Micro arc Oxidation Coating with Microporous Structure[J]. ACS Applied Materials & Interfaces, 2014,6(7):4797-4811. (SCI(Q1)中科院二区10.3).

15. D.Q. Wei, R. Zhou, S. Cheng, W. Feng, H.Y. Yang, Q. Du, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. MC3T3-E1 cells' response and osseointegration of bioactive sphene-titanium oxide composite coatings fabricated by a hybrid technique of microarc oxidation and heat treatment on titanium[J]. Journal of Materials Chemistry B, 2014, 2:2993-3008. (SCI(Q1)中科院二区7.5).

16. R. Zhou, D.Q. Wei, J.Y. Cao, W. Feng, S. Cheng, Q. Du, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. The effect of NaOH concentration on the steam-hydrothermally treated bioactive microarc oxidation coatings containing Ca, P, Si and Na on pure Ti surface[J]. Materials Science & Engineering C-Materials For Biological Applications, 2015,49:669-680.(SCI(Q1)中科院一区7.3).

17. R. Zhou, D.Q. Wei, J.Y. Cao, W. Feng, S. Cheng, Q. Du, B.Q. Li, Y.M. Wang, D.C. Jia, Y. Zhou. Effect of heat treatment atmosphere on the structure and apatite-inducing ability of Ca; P; Si and Na incorporated microarc oxidation coating on titanium[J], Surface & Coatings Technology, 2017,310:190-198. (SCI(Q2)中科院一区4.8).

18. Y.C. Zou, Y.M. Wang, D.Q. Wei, Q. Du, J.H. Ouyang, D.C. Jia, Y. Zhou. In-situ SEM analysis of brittle plasma electrolytic oxidation coating bonded to plastic aluminum substrate: Microstructure and fracture behaviors[J]. Materials Characterization, 2019,156:109851.(SCI(Q1)中科院一区4.5).

19. Hongge Li, Wenjie Zhao, Tian Chen, Yongjiang Huang, Jianfei Sun, Ping Zhu, Yunzhuo Lu, Alfonso H.W. Ngan, Daqing Wei, Qing Du, Yongchun Zou. Beneficial effects of deep cryogenic treatment on mechanical properties of additively manufactured high entropy alloy[J].Journal of Materials Science & Technology,2022,115:40-51.(SCI(Q1)中科院一区10.9).

20. H.G. Li, Y.J. Huang, W.J. Zhao, T. Chen, J.F. Sun, D.Q. Wei, Q. Du, Y.C. Zou, Y.Z. Lu, P. Zhu, X. Lu, A.H.W. Ngan. Overcoming the strength-ductility trade-off in an additively manufactured CoCrFeMnNi high entropy alloy via deep cryogenic treatment[J].Additive Manufacturing,2022,50:102546.(SCI(Q1)中科院一区11.0).

1.  中国分析测试协会科学技术奖(CAIA奖)，二等奖

2.  黑龙江省第七届“知识产权杯”高校发明创新竞赛，一等奖

3.  赛默飞高校分析测试优秀青年人才奖，三等奖