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科研队伍

贺永/教授,博导


贺永

教授、博导

浙江省三维打印工艺与装备重点实验室副主任

办公电话:0571-87951907

通讯地址浙江大学紫金港校区开物苑2-311

电子邮件:  yongqin@zju.edu.cn

个人主页:http://person.zju.edu.cn/heyongzju


一、个人履历

1、教育背景

1997.09-2001.07  中国矿业大学工程力学学士

2001.09-2008.03  浙江大学机械工程学系博士

2、工作经历

2008.04-2010.03       浙江大学,力学博士后流动站    博士后

2010.03-2010.11     浙江大学,现代制造工程研究所   讲师

2010.12-2013.09     浙江大学,现代制造工程研究所   副教授

2013.09-2016.12     浙江大学,机械工程学系,副教授,博士生导师

2014.08-2015.08     美国佛罗里达大学,机械航空系,访问学者

2016.12至今             浙江大学,机械工程学院,教授,博士生导师


二、研究方向

1.生物制造/生物打印(biofabrication/3D bioprinting)

2.医疗器械制造(medical equipment)

3.柔性电子制造(flexible electronics)


    致力于将3D生物打印与微流控技术相结合,实现在芯片上构造人体器官微环境,为器官的生长发育机制、疾病的机理探讨、大通量药物筛选提供基础平台。研究兴趣点侧重于血管、软骨组织的重构及打印;可穿戴设备的3D打印;手术辅助医疗器械制造等。


三、奖励荣誉

11.杰瑞杯第四届中国研究生石油装备创新设计大赛优秀指导教师奖,2017

10. 华为杯第十二届中国研究生电子设计竞赛华东区一等奖,指导教师(2017)

9. Biofabrication杂志Outstanding Reviewer Award,2016

8. 获国家基金委优秀青年科学基金资助, 2016

7. 荣获浙江大学机械工程学院2014-2015学年“我最喜爱的老师

6. 作为指导教师指导学生获浙江省第十四届挑战杯特等奖,2015 

5. 作为指导教师指导学生获得首届浙江省“互联网+”大学生创新创业大赛暨首届中国“互联网+大学生创新创业大赛选拔赛”金奖,2015

4. 第六届浙江大学柯元恒实验奖教金,一等奖,2014

3. 浙江大学2010—2011学年优秀研究生德育导师

2. 面向玻璃深加工的大型多轴联动自动化制造装备的关键技术与产业化,2012,中国机械工业科学技术三等奖,排名第二。

1. 微热压成型缺陷分析及其脱模装置,2009,中国机械工业学会优秀论文奖。


四、学术兼职

1.浙江省三维打印工艺与装备重点实验室副主任

2.仪器仪表学会精密机械分会青年委员会委员

3.Advanced Materials,Advanced healthcare materials等国际著名期刊的审稿人


五、科研项目

1.国家优秀青年科学基金,器官芯片制造,2017.1-2019.12

2.浙江省杰出青年基金,器官芯片的增材制造,2017.1-2020.12

3.国家基金面上项目,金属玻璃微构件热压成型中纳米晶化调控及成型基础研究,2014.1-2017.12


六、发表论文

57. Nie, Jin, , He Y*. et al. "Vessel‐on‐a‐chip with Hydrogel-based Microfluidics.", Small (2018): 1802368.

56. Yang, Ning, , He Y*. et al. "3D printing and coating to fabricate a hollow bullet-shaped implant with porous surface for controlled cytoxan release." International journal of pharmaceutics (2018) 552(1), 91-98.

55. Shao, Lei, , He Y*. et al. "Fiber‐Based Mini Tissue with Morphology‐Controllable GelMA Microfibers." Small (2018): 1802187.

54. Zhao, Peng, et al. "Research on the electrospun foaming process to fabricate three‐dimensional tissue engineering scaffolds." Journal of Applied Polymer Science (2018): 46898.

53. Zhao H, Chen Y, Shao L, , He Y*. et al. Airflow‐Assisted 3D Bioprinting of Human Heterogeneous Microspheroidal Organoids with Microfluidic Nozzle[J]. Small, 2018: 1802630 (Cover).

52. Gao Q, Gu H, Zhao P, He Y*. Fabrication of electrospun nanofibrous scaffolds with 3D controllable geometric shapes[J]. Materials & Design, 2018, 157: 159-169.

51. Zhou L, Gao Q, … He Y*, 3D Printed Wearable Sensors with Liquid Metals for the Pose Detection of Snakelike Soft Robots, ACS Applied Materials & Interfaces, 2018, DOI:10.1021/acsami.8b06903.

50. Nie J, Gao Q, … He Y*, 3D Printed Lego-like Modular Microfluidic Devices Based on Capillary Driving, Biofabrication, DOI: 10.1088/1758-5090/aaadd3.

49. Gao Q, Gu HB,..... He Y*. Fabrication of electrospun nanofibrous scaffolds with 3D controllable geometric shapes[J]. Material & Design, 2018, DOI: 10.1016/j.matdes.2018.07.042.

48. 48. Zhao H, Yang F, Fu, J, He Y*. Printing@Clinic From Medical Models to Organ Implants[J]. ACS Biomaterials Science & Engineering, 2017, DOI: 10.1021/acsbiomaterials.7b00542.

47. Shao H, Sun M, .. He Y*. Custom Repair of Mandibular Bone Defects with 3D Printed Bioceramic Scaffolds[J]. Journal of Dental Research, 2017, DOI: 10.1177/0022034517734846.

46. 46. Qiu J, Gao Q, .. He Y*. Rapid Customization of 3D Integrated Microfluidic Chips via Modular Structure-Based Design[J]. ACS Biomaterials Science & Engineering, 2017, DOI: 10.1021/acsbiomaterials.7b00401.

45. Shao H, Liu A, .. He Y*,... 3D robocasting magnesium-doped wollastonite/TCP bioceramic scaffolds with improved bone regeneration capacity in critical sized calvarial defects[J]. Journal of Materials Chemistry B, DOI: 10.1039/c7tb00217c.

44. Jin Y, Du J, Ma Z, He, Y. An optimization approach for path planning of high-quality and uniform additive manufacturing[J]. International Journal of Advanced Manufacturing Technology, 2017, DOI 10.1007/s00170-017-0207-3

43. Wu Y, Gao Q,… He Y*. From microfluidic paper-based analytical devices to paper-based biofluidics with integrated continuous perfusion[J]. ACS Biomaterials Science & Engineering, 2017, DOI: 10.1021/acsbiomaterials.7b00084.

42. Shao H, Ke X, .. He Y*,... Bone regeneration in 3D printing bioactive ceramic scaffolds with improved tissue material interface pore architecture in thin-wall bone defect[J]. Biofabrication, 9 (2017) 025003.

41. Liu Y, Gao Q,.. He Y*.  Fabrication of cerebral aneurysm simulator with a desktop 3D printer[J]. Scientific Reports, DOI: 10.1038/srep44301

40. Liu Y, Gao Q, Du S, He Y*. Fabrication of cerebral aneurysm simulator with a desktop 3D printer[J]. Scientific Reports, 2017: 44301.

39. Gao Q, Liu Z, He Y*. 3D Bioprinting of Vessel-like Structures with Multi-level Fluidic Channels[J]. ACS Biomaterials Science & Engineering, 2017, DOI: 10.1021/acsbiomaterials.6b00643.

38. Yao X H, Jia T,… He Y*. Facial fabrication of paper-based flexible electronics with flash foam stamp lithography[J]. Microsystem Technologies, 2016: 1-8.

37. Sun M, Liu A, Shao H, He Y*, et al. Systematical Evaluation of Mechanically Strong 3D Printed Diluted magnesium Doping Wollastonite Scaffolds on Osteogenic Capacity in Rabbit Calvarial Defects[J]. Scientific Reports, 2016, 34029.

36. He Y*, Yang F, Zhao H, et al. Research on the printability of hydrogels in 3D bioprinting.[J]. Scientific Reports, 2016, 29977.

35. He Y*, Gao Q, Wu W, et al. 3D Printed Paper-Based Microfluidic Analytical Devices[J]. Micromachines, 2016, 7(7), 108.

34. Liu A, Sun M, Shao H, He Y*, et al. The outstanding mechanical response and bone regeneration capacity of robocast dilute magnesium-doped wollastonite scaffolds in critical size bone defects[J]. Journal of Materials Chemistry B, 2016, 4(22): 3945-3958.

33. He Y*, Wu Y, Fu J, et al. Developments of 3D Printing Microfluidics and Applications in Chemistry and Biology: a Review[J]. Electroanalysis, 2016, 28, 1658 – 1678.

32. Liu A, Xue G, Sun M,.. He Y*. 3D Printing Surgical Implants at the clinic: A Experimental Study on Anterior Cruciate Ligament Reconstruction[J]. Scientific reports, 2016, 6: 21704.

31. Shao H, He Y*, Fu J, et al. 3D printing magnesium-doped wollastonite/β-TCP bioceramics scaffolds with high strength and adjustable degradation[J]. Journal of the European Ceramic Society, 2016, 36:1495–1503.

30. Xie J, Shao H, He D, He Y, et al. Ultrahigh strength of three-dimensional printed diluted magnesium doping wollastonite porous scaffolds[J]. MRS Communications, 2015, 5(04): 631-639.

29. Jin Y, Li H, He Y*, et al. Quantitative analysis of surface profile in fused deposition modelling[J]. Additive Manufacturing, 2015, 8: 142-148.

28. Gao Q, He Y*, Fu J, et al. Fabrication of shape controllable alginate microparticles based on drop-on-demand jetting[J]. Journal of Sol-Gel Science and Technology, 2016: 77, 610-619.

27. Xie J, Yang X, Shao H, He Y, et al. Simultaneous mechanical property and biodegradation improvement of wollastonite bioceramic through magnesium dilute doping[J]. Journal of the mechanical behavior of biomedical materials, 2016, 54: 60-71.

26. He Y*, Wu Y, Fu J Z, et al. Fabrication of paper-based microfluidic analysis devices: a review[J]. RSC Advances, 2015, 5(95): 78109-78127.

25. Shao H, Yang X, He Y*, et al. Bioactive glass-reinforced bioceramic ink writing scaffolds: sintering, microstructure and mechanical behavior[J]. Biofabrication, 2015, 7(3): 035010.

24. He Y, Xiao X, Wu Y, et al. A facile and low-cost micro fabrication material: flash foam[J]. Scientific reports, 2015, 5, 13522

23. Wang Q, Xia Q, Wu Y, Yong He, et al. 3D‐Printed Atsttrin‐Incorporated Alginate/Hydroxyapatite Scaffold Promotes Bone Defect Regeneration with TNF/TNFR Signaling Involvement[J]. Advanced healthcare materials, 2015, 4(11): 1701-1708.

22. Qing Gao, Yong He*, Jian-zhong Fu, An Liu, Liang Ma. Coaxial nozzle-assisted 3D bioprinting with built-in microchannels for nutrients delivery[J]. Biomaterials, 2015, 61, 203-215.

21. Yu-an Jin, Yong He*, Jian-zhong Fu, Support generation for additive manufacturing based on sliced data[J].The International Journal of Advanced Manufacturing Technology, 10.1007/s00170-015-7190-3

20. Yong He, WenBin Wu, Ting Zhang, JianZhong Fu. Micro structure fabrication with a simplified hot embossing method [J]. Rsc Advances, 2015,5(49),39138-39144.

19. Yong He, JingJiang Qiu, JianZhong Fu, Jiong Zhang, YiNa Ren, An Liu. Printing 3D microfluidic chip with a sugar 3D printer [J]. Microfluidics and Nanofluidics, 10.1007/s10404-015-1571-7

18. Yong He, WenBing Wu, JianZhong Fu. Rapid fabrication of paper-based microfluidic analytical devices with desktop stereolithography 3D printer [J]. RSC Advances, 2015, 5, 2694-2701.

17. Yong He, Guang-huai Xue, Jian-zhong Fu, Fabrication of low cost soft tissue prostheses with the desktop 3D printer [J]. Scientific Reports, 2014, 4: 6973.

16. He Yong, Yan Wu, Xiao Xiao, Fu JianZhong, Xue GuangHuai. A low-cost and rapid microfluidic paper-based analytical devices fabrication method: Flash Foam Stamp Lithography [J]. RSC Advances, 2014, 4(109): 63860-63865.

15. Jin Y, He Y*, Xue G, et al. A parallel-based path generation method for fused deposition modeling [J]. The International Journal of Advanced Manufacturing Technology, 2014: 1-11.

14. Jin Y, He Y*, Fu J, et al. Optimization of tool-path generation for material extrusion-based additive manufacturing technology [J]. Additive Manufacturing, 2014, 1: 32-47.

13. Jin Y, He Y*, Gao Q, et al. Droplet deviation modeling and compensation scheme of inkjet printing [J]. The International Journal of Advanced Manufacturing Technology, 2014: 1-11.

12. Yu-an Jin, Yong He*, Jian-zhong Fu, Zhi-wei Lin, Wen-feng Gan. A fine-interpolation-based parametric interpolation method with a novel real-time look-ahead algorithm [J]. Computer-Aided Design, 2014,55: 37-48. 

11. He Y, Fu J Z, Zhao P, et al. Enhanced polymer filling and uniform shrinkage of polymer and mold in a hot embossing process [J]. Polymer Engineering & Science, 2013, 53(6): 1314-1320.

10. Jin Y, He Y*, Fu J. A look-ahead and adaptive speed control algorithm for parametric interpolation [J]. The International Journal of Advanced Manufacturing Technology, 2013, 69(9-12): 2613-2620.

9. Jin Y, He Y*, Fu J, et al. An interpolation method for the open CNC system based on EPM [J]. The International Journal of Advanced Manufacturing Technology, 2013, 69(1-4): 405-416.

8. Peng Zhao, Huamin Zhou, Yong He, Kan Cai, Jianzhong Fu. A nondestructiv e online method for monitoring the injection molding process by collecting and analyzing machine running data [J]. The International Journal of Advanced Manufacturing Technology, 2014, 72(5-8): 765-777

7. Xu S, Yang X, Chen X, Shao H, He Y et al. Effect of borosilicate glass on the mechanical and biodegradation properties of 45S5-derived bioactive glass-ceramics [J]. Journal of Non-Crystalline Solids, 2014, 405: 91-99.

6. Shen H, Fu J, He Y, et al. On-line asynchronous compensation methods for static/quasi-static error implemented on CNC machine tools [J]. International Journal of Machine Tools and Manufacture, 2012, 60: 14-26.

5. Lin Z, Fu J, He Y, et al. A robust 2D point-sequence curve offset algorithm with multiple islands for contour-parallel tool path [J]. Computer-Aided Design, 2013, 45(3): 657-670.

4. He Y, Fu J Z, Chen Z C. Research on optimization of the hot embossing process [J].Journal of Micromechanics and Microengineering, 2007, 17(12): 2420.

3. He Y, Fu J Z, Chen Z C. Optimization of control parameters in micro hot embossing [J]. Microsystem Technologies, 2008, 14(3): 325-329.

2. Yong He, Jianzhong F, Zichen C. Experimental study on the hot embossing polymer microfluidic chip [J]. Chinese Journal of Mechanical Engineering, 2008, 21(3): 87-89.

1.He Y, Fu J Z, Chen Z C. Analysis of pattern height development in hot embossing process [J]. Microsystem technologies, 2009, 15(7): 963-968.


七、专利成果

1.傅建中,邵惠锋,贺永,高庆  一种三维生物结构打印装置及方法ZL 2013103398247  

2.傅建中,邵惠锋,贺永等  一种球形叶轮机器人ZL 201310148976 9 

3.贺永,邵惠锋,傅建中等一种可施加动态载荷的细胞三维受力培养装置ZL 201310724947 2  

4.傅建中,夏晨晖,贺永,姚鑫骅,沈洪垚  一种基于分形流道的冷却套及电主轴,ZL 201210334517 5 

5.贺永,傅建中,傅李达  板材交替送料装置,ZL 201210205572 4 

6.傅建中,夏晨晖,贺永,姚鑫骅,陈子辰  一种快速辨识机床主轴热态特性的方法, ZL 201310292615 1 

7.贺永,朱伟杰,傅建中,韩家骅 一种全自动开槽折弯机 201210365348 1 

8.贺永,魏子渊,傅建中,薛光怀 用于微液滴发生的压电式喷头装置,ZL 201310371383 9 

9.贺永,金育安,傅建中,朱伟杰  一种基于电涡流位移传感器的轧辊外径测量系统, ZL201210405374 2 

10.贺永,傅建中,赵朋,姚鑫骅,沈洪垚,陈子辰,一种模具自抛光的零件微热压成型方法及装置,ZL201210005290 X  

11.贺永,傅建中,詹伯良,朱伟杰,一种恒磨削量的抛光方法,ZL201210288728 X  

12.贺永,傅建中,詹伯良,多磨削单元多工序并行的恒线速度磨削方法及磨削装置, ZL201210250051 0  

13.贺永,夏冰,傅建中,赵朋,金育安,基于细胞状态反馈的三维细胞支架打印方法,ZL201310371480 8  

14.贺永,夏冰,傅建中,金育安,三维微流控芯片的制作方法,ZL201210454747 5  

15.贺永,傅建中,章婷等,具有亚波长抗反射结构的聚合物太阳能电池及其制造方法, ZL201210005735 4  

16.贺永,傅建中,章婷,陈子辰,一种基于分离式双模具加工聚合物微纳复合结构的方法, ZL201110317395 4  

17.贺永,白玉石,傅建中,周愉皓,宋凤海,刘军,基于摩擦传送与螺旋传送的子弹自动装填系统,ZL 201210115752 3  

18.贺永,王辉,黄路鸣,陈丹磊,傅建中,一种基于磁力同步带与气动装置的子弹自动装配系统,ZL 201210057807 X  

19.贺永,朱伟杰,金国华,徐海超,傅建中,一种基于重力筛选的子弹自动装配系统, ZL 201210057583 2  

20.贺永,傅建中,白玉石,周愉皓,宋凤海,刘军,一种子弹自动排序装配装置,ZL 201210019252 X  

21.贺永,傅建  中,姚鑫骅,沈洪垚,赵朋,陈子辰 国家发明专利一种机床温度测量装置,ZL 201210030064 7 

22.贺永,傅建中,傅李达 国家发明专利一种树脂立体发光字及其制作方法,ZL 201110437197 1 

23.贺永,傅建中,沈洪垚等  数控机床热特性监控测点布置方法, ZL 201110065365 9 

24.贺永,傅建中,陈子辰  金属玻璃微构件的热塑性成型加工方法, ZL 201010183560 7 

25.贺永,傅建中,陈子辰 超声辅助微纳压印成型装置, ZL 201010175812 1 

26.贺永,傅建中,沈洪垚等 一种热伸长自检测的电主轴结构, ZL 201010235563 0 

27.贺永,傅建中,陈子辰 一种基于气动的微纳米压印脱模结构, ZL 200810059875 3 

28.傅建中,贺永,姚鑫骅等 数控机床误差的轨迹再生补偿方法, ZL 201010228662 6 

29.傅建中,林志伟,贺永等  一种快速生成五轴刀具姿角可行域的方法,ZL201210093968 4 

30.赵朋,傅建中,贺永,陈子辰  用于注塑工艺的聚合物结晶度在线测量方法及装置,ZL 201110214697 9 

31.傅建中,甘文峰,贺永等  国家发明专利基于多孔金属的保证高速精密电主轴轴承热稳定的结构, ZL 201010202352 7 

32.沈洪垚,傅建中,贺永,姚鑫骅,甘文峰  导轨成形磨床双磨头热伸长非接触测量结构,ZL2010131749 9 

33.傅建中,陈子辰,贺永等 帕尔贴热循环微纳米压印装置, ZL 200410053401 X 

 


浙江大学制造技术及装备自动化研究所
地址:浙江省杭州市西湖区余杭塘路866号
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