1、基本情况：

姓名：邱京江

性别：男

民族：汉

职称：副教授

导师类型：硕士生导师

联系方式：qjjzzu@zzu.edu.cn

实验室主页：https://nobelab.top/productinfo/277373.html

招生信息：

（1）课题组研究方向包括基于微流控技术的检测技术开发（包括体外诊断（IVD）与即时检测（POCT）技术）、基于柔性传感器的可穿戴系统开发等多学科交叉研究，已指导学生获国家奖学金、学科竞赛国家级及省级奖项等多项奖励与荣誉。

（2）每年招收力学专业学硕及安全工程专业专硕，欢迎具有力学、机械、材料、生物医学工程背景的同学报考硕士研究生。

（3）随时欢迎本科生积极参与课题组多学科交叉研究课题，具体可通过邮件联系。

2、个人简历：

3、研究领域：

（1）增材制造（3D打印）；（2）微流控技术；（3）柔性传感器

4、科研项目：

主持国家自然科学基金、河南省重点研发专项子课题、河南省重点研发与推广专项（科技攻关）等国家级及省部级项目7项，主持河南省高等学校重点科研项目等厅级项目2项，参与国家自然科学基金多项。

5、科研成果：

论文:

[1] Gao Q, Guo Z, Zhang S, Xia J, Li J, Yuan T, Chen J, Fang Y, Qiu J, Wei R. Coaxial bioprinting of microsphere bioink to engineer heterogeneous vascularized lung cancer model[J]. Biomaterials Advances. 2026, 183: 214741.

[2] Li S, Peng W, Zhu M, Hao Y, Zhai M, Hu Y, Qiu J, Zhang Y, Wei R. Advances in magnetic-assisted microfluidic mixing and separation in chemical and biomedical fields[J]. Microchemical Journal. 2026, 220: 116441.

[3] Peng W, Miao Y, Wang L, Li J, Wang E, Nie B, Qiu J, Cai Y, Wei R, Wu X. Spontaneous dewetting morphology and soft magnetic properties of permalloy thin films during thermal annealing[J]. Langmuir. 2025, 41(41): 27770-27780.

[4] Zhang Z, Nie B, Qiu J, Peng W, Li S, Hao Y, Zhai M, Hu Y, Zhu M, Xi R, Wei R. A high-sensitivity microwave sensor with split-ring resonator structure for force and bending measurement[J]. IEEE Sensors Journal. 2025, 25(12): 21312-21321.

[5] Zhang S, Xia J, Chen J, Chen L, Qiu J, Guo Z, Wei R, Sun W. Ultra-elastic, transparent, and conductive gelatin/alginate-based bioadhesive hydrogel for enhanced human–machine interactive applications[J]. Biomacromolecules. 2025, 26(7): 4436-4448.

[6] Yu W, Chen J, Gao Q, Guo Y, Zhang S, Pan Y, Nie B, Zhang X, Jiang L, Qiu J, Guo Z, Wei R. Multifunctional PVA/SA-based hydrogels integrating high stretchability, conductivity, and antibacterial activity for human-machine interactive flexible sensors[J]. Chemical Engineering Journal. 2025: 164695.

[7] Guo Z, Guo Y, Zhang S, Yu W, Gao Q, Chen J, Xiong Y, Chen L, Qiu J, Wei R. Elastin-based janus hydrogel tape with adhesive, stretchable, and conductive properties for soft bioelectronic applications[J]. Macromolecules. 2025, 58(9): 4365-4374.

[8] Zhou H, Zhang S, Qiu J, Jiang M, Liu Z, Zou Z, Zhou J, He Y, Yang X, Guo Z, Sa G. Sustained release of migrasomes from a methacrylate-oxidized hyaluronic acid/methacrylated gelatin composite hydrogel accelerates skin wound healing[J]. International Journal of Biological Macromolecules. 2025, 306: 141355.

[9] Nie B, Zhu Y, Luo Z, Qiu J, Zhu M, Zhai M, Chai G, Li X, Shao J, Wei R. Muscle fiber-inspired high-performance strain sensors for motion recognition and control[J]. Langmuir. 2025, 41(3): 2053-2064.

[10] Guo Z, Xu X, Qiu J, Yu W, Zhang S, Li J, Zhu Y, Lu J, Gao Q, Nie B, Zhang Y, Qi G, Wang W, Zhang X, Jiang L, Wei R. Fishing net-inspired PVA-chitosan-CNT hydrogels with high stretchability, sensitivity, and environmentally stability for textile strain sensors[J]. International Journal of Biological Macromolecules. 2024, 282: 137576.

[11] Zhang Y, Han H, Dou S, Wu X, Qiu J, Nie B, Wei R. Diode characteristics of gas flow through conical nanochannels at atmospheric pressure[J]. Physics of Fluids. 2024, 36(11).

[12] Zhang S, Qiu J, Guo Y, Gao Q, Guo Z. Naturally derived double-network hydrogels with application as flexible adhesive sensors[J]. International Journal of Biological Macromolecules. 2024, 277: 134131.

[13] Li S, Qiu J, Guo Z, Gao Q, Huang C Y, Hao Y, Hu Y, Liang T, Zhai M, Zhang Y, Nie B, Chang W J, Wang W, Xi R, Wei R. Formation and culture of cell spheroids by using magnetic nanostructures resembling a crown of thorns[J]. Biofabrication. 2024, 16(4): 45018.

[14] Guo Z, Zhang S, Guo Y, Xia J, Wu X, Hu H, Hu R, Huang F, Gao Q, Liu C, Qiu J, Sun W. Bioinspired coacervate-based bioinks for construction of multiscale tissue engineering scaffolds[J]. Nano Research. 2024, 17(9): 8209-8219.

[15] Li Z, Dou L, Yang S, Ouyang H, Zhu Q, Chen X, Jia X, Dou S, Cui X, Zhang Y, Qiu J, Qi G, Nie B, Liu P, Wei R. Nano friction behaviour between magnetic materials and copper considering the inter-diffusion effect[J]. Friction. 2024, 12(7): 1532-1547.

[16] Lv B, Yang X, Nie B, Zhang H, Zhang Y, Qi G, Li S, Qiu J, Wei R. A microwave sensor with split-ring resonator structure for the detection of lubricating oil contaminants[J]. IEEE Sensors Journal. 2024, 24(10): 16845-16853.

[17] Lv B, Yang X, Zhang H, Peng W, Qi G, Li S, Qiu J, Zhang Y, Wu X, Xi R, Wang W, Wei R. Permittivity and concentration measurements based on coplanar waveguide and split ring resonator sensor[J]. IEEE Sensors Journal. 2024, 24(4): 5122-5131.

[18] Gu W, Zhang X, Zhang B, Lin Q, Jia Z, Liu F, Qiu J, He Y, Li Q. Experimental and numerical investigation on turbulent convection enhancement in minichannel heat sink with staggered v-shaped pin fins[J]. Numerical Heat Transfer, Part a: Applications. 2024: 1-24.

[19] Qiu J, Li J, Guo Z, Zhang Y, Nie B, Qi G, Zhang X, Zhang J, Wei R. 3D printing of individualized microfluidic chips with DLP-based printer[J]. Materials. 2023, 16(21): 6984.

[20] Zhang Y, Du X, Jia X, Wang K, Xiong X, Gao X, Qiu J, Li Z, Qi G, Nie B, Wang W, Fan S, Wei R. Size and kink effects on thermal conductivity in nickel nanowires[J]. Applied Physics Letters. 2023, 123(8).

[21] Wang K, Nie B, Su N, Lv B, Song H, Qi G, Zhang Y, Qiu J, Wei R. Three dimensional high-performance micro-supercapacitors with switchable high power density and high energy density[J]. Nanoscale. 2023.

[22] Zhou K, Li J, Li W, Zhang Y, Wang K, Xiong X, Li S, Chen X, Cheng H, Qiu J, Wei R. Preparation and magnetic manipulation of Fe₃O₄/acrylic resin core–shell microspheres[J]. Langmuir. 2023, 39(32): 11459-11467.

[23] Nie B, Song H, Lv B, Xiong X, Qi G, Zhang Y, Qiu J, Li X, Shao J, Wei Z. Micro–nano dual-scale embedded graphene/ag architectures for flexible low-voltage-driven transparent electrothermal films[J]. Journal of Materials Chemistry C. 2023, 11(18): 6145-6154.

[24] Zhang Y, Dou S, Qi J, Xu X, Qiu J, Wei Z. Experimental study on slip flow of nitrogen through microchannels at atmospheric pressure[J]. Microfluidics and Nanofluidics. 2023, 27(2): 7.

[25] Li J, Zhang X, Wang C, Qiu J, Zhang Y, Zhang X, Wei Z. Study of magnetic microspheres screening in microfluidic chip based on co-simulation method[J]. AIP Advances. 2023, 13(2): 25136.

[26] Zhao D, Nie B, Qi G, Li S, Zhu Q, Qiu J, Hsu Y, Zhang Y, Wang W, Zhang Q, Wei Z. Flexible metal nano-mesh strain sensor with characteristics of spontaneous functional recovery after fracture damage[J]. Nanoscale. 2022.

[27] Zhang X, Du A, Luo Y, Lv C, Zhang Y S, Yan S, Wu Y, Qiu J, He Y, Wang L, Li Q. Wetting behaviors and mechanism of micro droplets on hydrophilic micropillar-structured surfaces[J]. Surfaces and Interfaces. 2022: 102242.

[28] Su W, Qiu J, Mei Y, Zhang X, He Y, Li F. A microfluidic cell chip for virus isolation via rapid screening for permissive cells[J]. Virologica Sinica. 2022. 37(4): p. 547-557.

[29] Zhang X, Wang Z, Zhang Y S, Yan S, Hou C, Gong Y, Qiu J, Chen M, Li Q. Studying endothelial cell shedding and orientation using adaptive perfusion‐culture in a microfluidic vascular chip[J]. Biotechnology and Bioengineering. 2021, 118(2): 963-978.

[30] Nie J, Gao Q, Xie C, Lv S, Qiu J, Liu Y, Guo M, Guo R, Fu J, He Y. Construction of multi-scale vascular chips and modelling of the interaction between tumours and blood vessels[J]. Materials Horizons. 2020, 7(1): 82-92.

[31] Zhang Y, Xu A, Qiu J, Wei H, Wei Z. Kinetic modeling of multiphase flow based on simplified Enskog equation[J]. Frontiers of Physics. 2020.

[32] Lv S, Nie J, Gao Q, Xie C, Zhou L, Qiu J, Fu J, Zhao X, He Y. Micro/nanofabrication of brittle hydrogels using 3D printed soft ultrafine fiber molds for damage-free demolding[J]. Biofabrication. 2020, 12(2): 25015.

[33] Xie M, Gao Q, Qiu J, Fu J, Chen Z, He Y. 3d biofabrication of microfiber-laden minispheroids: a facile 3d cell co-culturing system[J]. Biomaterials Science. 2020, 8(1): 19-117.

[34] Xie M, Yu K, Sun Y, Shao L, Nie J, Gao Q, Qiu J, Fu J, Chen Z, He Y. Protocols of 3D bioprinting of gelatin methacryloyl hydrogel based bioinks[J]. Journal of Visualized Experiments. 2019(154).

专利：

[1] 邱京江、郭钟伟、徐省等；一种高强度导电水凝胶纤维制备方法及其加工装置，已授权，发明专利，ZL202311599351.4

[2] 邱京江、詹骏岚、张迪等；一种胰岛素注射微针贴片，已授权，实用新型，ZL202221365466.8

[3] 邱京江、张永祥、唐放等；一种基于微流控技术的洗衣凝珠制备装置，已授权，实用新型，ZL202321042850.9

[4] 邱京江、杨佚、田学梅等；一种基于仿生学的微针贴片，已授权，实用新型，ZL202221365456.4

[5] 刘省飞，杨晴，邱京江；一种基于特斯拉流道的螺旋可拆卸单向导通微阀，已授权，实用新型，ZL202120933949.2

[6] 唐浩楠，吴宪君，邱京江; 一种嵌入式侧向紧锁的新型微流控模块通道接口，已授权，实用新型，ZL202120933951.X

[7] 邱京江，周克佳，卫荣汉，李静，张玉东，卫洪涛; 一种可智能识别的防混用智能牙刷，已授权，实用新型，ZL202120806407.9

[8] 吴帅虎，徐献忠，吕晓慧，王龙武，曹海涛，卫荣汉，卫洪涛，邱京江，张玉东，李姿琳; 一种新型血管吻合装置，已授权，实用新型，ZL202021093844.2

[9] 李静，王聪，邱京江; 一种可以用于多种细胞进行分选的磁控微流体装置，已授权，实用新型，ZL202020357942.6

[10] 李峰，贺永，苏炜德，邱京江; 微流控细胞芯片和基于该细胞芯片的病毒分离培养方法，授权，发明专利，ZL202110823992.8

[11] 贺永，高庆，傅建中，邱京江，吴文斌，杨飞飞，赵海明; 一种具有内置营养通道的三维生物结构的打印方法，已授权，发明专利，ZL201510239964.6

[12] 贺永，邱京江，傅建中，肖箫，吴燕; 基于3D打印的三维微流控芯片的加工方法及打印装置，已授权，发明专利，ZL201410112659.6

[13] 贺永，高庆，傅建中，沈洪垚，邱京江，张冏; 基于糖模的溶模铸造方法，已授权，发明专利，ZL201310696055.6