科学研究 - 贺健康 - 教师个人主页

一、微纳3D打印工艺与装备

二、生物3D打印工艺与装备

三、机器人3D打印工艺与装备

四、仿生柔性智能构件4D打印

项目编号	项目名称	项目来源	起讫时间	承担角色	项目类别
2020B1515130002	功能化/活性化人体植入物高精度3D打印技术	粤港澳研究团队项目	2020-10~2024-09	负责人	纵向项目
2020GXLH-Y-021	生物可降解植入物3D打印与临床应用	陕西省重点研发计划	2020-01~2022-12	负责人	纵向项目
2018YFA0703003	复杂组织细胞精确排布机理与三维成型方法	国家重点研发计划	2019-08~2024-07	负责人	纵向项目
JZ-201906006	开放性颅脑海战伤的修补材料研究	重大项目	2019-08~2022-12	负责人	纵向项目
JZM-201910020	全柔性XXX研究	重点项目	2019-08~2021-12	负责人	纵向项目

项目编号

项目名称

项目来源

起讫时间

承担角色

项目类别

2020B1515130002

功能化/活性化人体植入物高精度3D打印技术

粤港澳研究团队项目

2020-10~2024-09

负责人

纵向项目

2020GXLH-Y-021

生物可降解植入物3D打印与临床应用

陕西省重点研发计划

2020-01~2022-12

负责人

纵向项目

2018YFA0703003

复杂组织细胞精确排布机理与三维成型方法

国家重点研发计划

2019-08~2024-07

负责人

纵向项目

JZ-201906006

开放性颅脑海战伤的修补材料研究

重大项目

2019-08~2022-12

负责人

纵向项目

JZM-201910020

全柔性XXX研究

重点项目

2019-08~2021-12

负责人

纵向项目

专利名称	申请号	专利类型	申请日期
一种高孔隙结构无支撑空间3D打印装置及打印方法	ZL201810468151.8	发明	2021.03.02
一种多孔聚醚醚酮颅骨替代物及其制造方法	ZL201910527817.7	发明	2020.11.17
一种旋转式多材料3D打印喷头装置	ZL201710827927.6	发明	2020.09.08
一种基于微流体混合的梯度材料3D打印喷头	ZL201810816087.8	发明	2020.03.21
一种高精度的生物复合3D打印装置及打印方法	ZL201610606961.6	发明	2019.03.12

专利名称

申请号

专利类型

申请日期

一种高孔隙结构无支撑空间3D打印装置及打印方法

ZL201810468151.8

发明

2021.03.02

一种多孔聚醚醚酮颅骨替代物及其制造方法

ZL201910527817.7

发明

2020.11.17

一种旋转式多材料3D打印喷头装置

ZL201710827927.6

发明

2020.09.08

一种基于微流体混合的梯度材料3D打印喷头

ZL201810816087.8

发明

2020.03.21

一种高精度的生物复合3D打印装置及打印方法

ZL201610606961.6

发明

2019.03.12

论文标题	作者	发表/完成日期	期刊名称
Additive manufacturing and large deformation responses of highly-porous polycaprolactone scaffolds with helical architectures for breast tissue engineering	Zijie Meng, Jiankang He*, Dichen Li	2021-05-31	Virtual and Physical Prototyping
Electrohydrodynamic 3D printing of orderly carbon/nickel composite network as supercapacitor electrodes	Zhang Bing, He Jiankang* et al	2021-03-01	Journal of Materials Science & Technology
Melt-based, solvent-free additive manufacturing of biodegradable polymeric scaffolds with designer microstructures for tailored mechanical/biological properties and clinical applications	Zijie Meng; Jiankang He*, et al	2020-08-01	Virtual and Physical Prototyping
Human-on-leaf-chip: A biomimetic vascular system integrated with chamber-specific organs	Mao Mao#; Ho Pan Bei#, et al	2020-06-01	Small
In-situ Re-melting and Re-solidification Treatment of Selective Laser Sintered Polycaprolactone Lattice Scaffolds for Improved Filament Quality and Mechanical Properties	Zijie Meng; Jiankang He*, et al	2020-05-01	Biofabrication
High-resolution electrohydrodynamic bioprinting: a new biofabrication strategy for biomimetic micro/nanoscale architectures and living tissue constructs	Jiankang He*; Bing Zhang, et al	2020-05-01	Biofabrication
Multi-directional cellular alignment in 3D guided by electrohydrodynamically-printed microlattices	Mao Mao, Jiankang He*, et al	2020-02-01	Acta Biomaterialia
Electrohydrodynamic 3D printing of layer-specifically oriented, multiscale conductive scaffolds for cardiac tissue engineering	Qi Lei, Jiankang He*, et al	2019-10-01	Nanoscale
Leaf-templated, microwell-integrated microfluidic chips for high-throughput cell experiments	Mao Mao, Jiankang He*, et al	2018-07-01	Biofabrication
Electrohydrodynamic Printing of Microscale PEDOT:PSS-PEO Features with Tunable Conductive/Thermal Properties	Jinke Chang, Jiankang He*, et al	2018-05-01	ACS Applied Materials & Interfaces
Microscale electrohydrodynamic printing of conductive silver features based on in situ reactive inks	Qi Lei, Jiankang He*, et al	2018-01-01	Journal of Materials Chemistry C
Electrohydrodynamic 3D printing of microscale PCL scaffolds with multi-walled carbon nanotubes	Jiankang He*, Fangyuan Xu, et al	2017-01-01	Biofabrication (IF=5.24)
Micro/nanoscale Electrohydrodynamic printing: from 2D to 3D	Bing Zhang, Jiankang He*, et al	2016-08-18	Nanoscale （IF=7.367）
Development of melt electrohydrodynamic 3D printing for complex microscale PCL scaffolds	Jiankang He*, Peng Xia, Dichen Li	2016-08-18	Biofabrication (IF=5.24)
Fabrication of circular microfluidic network in enzymatically-crosslinked gelatin hydrogel	Jiankang He*, Ruomeng Chen, Yongjie Lu， et al	2015-09-07	Materials Science and Engineering C (IF=4.16)
Design and fabrication of biomimetic multiphased scaffolds for ligament-to-bone fixation	Jiankang He, Wenyou Zhang, et al	2015-01-24	Materials Science and Engineering C (IF=4.16)
Electrohydrodynamic Direct-writing Lithography: an Alternative Maskless Technique for Microstructure Fabrication	Jiankang He, Fangyuan Xu, et al	2014-12-08	Applied Physics Letters (IF=3.302)
A novel silk-based artificial ligament with TCP/PEEK anchor for ACL reconstruction - safety and efficacy in procine model	Xiang Li, Jiankang He, et al	2014-05-20	Acta Biomaterialia (影响因子: 6.025)
A novel silk-TCP-PEEK construct for anterior cruciate ligament reconstruction: an off-the-shelf alternative to a bone-tendon-bone autograft	Xiang Li, Jiankang He, et al	2014-03-19	Biofabrication (影响因子: 4.289)
Layer-by-layer micromolding of natural biopolymer scaffolds with intrinsic microfluidic networks	Jiankang He, Ye Wang et al.	2013-01-14	Biofabrication（影响因子：4.289）

论文标题

作者

发表/完成日期

期刊名称

Additive manufacturing and large deformation responses of highly-porous polycaprolactone scaffolds with helical architectures for breast tissue engineering

Zijie Meng, Jiankang He*, Dichen Li

2021-05-31

Virtual and Physical Prototyping

Electrohydrodynamic 3D printing of orderly carbon/nickel composite network as supercapacitor electrodes

Zhang Bing, He Jiankang* et al

2021-03-01

Journal of Materials Science & Technology