贺永 - 浙江大学 - 机械工程学院

个人简介

学习工作经历 2016.12- 浙江大学，机械工程学院，教授，博士生导师 2014.08-2016.08 美国佛罗里达大学，机械航空系，访问学者 2013.09-2016.12 浙江大学，机械工程学系，副教授，博士生导师 2010.12-2013.09 浙江大学，现代制造工程研究所副教授 2010.03-2010.11 浙江大学，现代制造工程研究所讲师 2008.04-2010.03 浙江大学，力学博士后流动站博士后 2001.09-2007.12 浙江大学，机械制造及其自动化博士 1997.09-2001.07 中国矿业大学，工程力学学士

研究领域

3D打印（增材制造）生物制造（组织工程）柔性电子打印机电一体化装备（高精度3D打印机）

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

2019 Lu-yu Zhou, Jian-zhong Fu, et al.All-Printed Flexible and Stretchable Electronics with Pressing or Freezing Activatable Liquid Metal-Silicone Inks,Advanced Functional Materials,2019 . Nie J, Gao Q, Xie C, et al. Construction of multi-scale vascular chips and modelling of the interaction between tumours and blood vessels[J]. Materials Horizons, 2019. Zhou L, Gao Q, Fu J, et al. Multi-Material 3D Printing of Highly Stretchable Silicone Elastomer[J]. ACS applied materials & interfaces, 2019. Shao L, Gao Q, Xie C, et al. Bioprinting of Cell‐Laden Microfiber: Can It Become a Standard Product?[J]. Advanced healthcare materials, 2019, 8(9): 1900014. Xie C, Gao Q, Wang P, et al. Structure-induced cell growth by 3D printing of heterogeneous scaffolds with ultrafine fibers[J]. Materials & Design, 2019, 181: 108092. 3D Printed Multi-scale Scaffolds with Ultrafine Fibers for Providing Excellent Biocompatibility Lv S, Nie J, Gao Q, et al. Micro/nanofabrication of brittle hydrogels using 3D printed soft ultrafine fiber molds for damage-free demolding[J]. Biofabrication, 2019. Xie M, Gao Q, Qiu J, et al. 3D biofabrication of microfiber-laden minispheroids: a facile 3D cell co-culturing system[J]. Biomaterials science, 2020. Gu Z, Fu J, Lin H, et al. Development of 3D Bioprinting: From Printing Methods to Biomedical Applications[J]. Asian Journal of Pharmaceutical Sciences, 2019. Why choose 3D bioprinting? Part I: a brief introduction of 3D bioprinting for the beginners [J]. Bio-Design and Manufacturing 2019. Protocols of 3D Bioprinting of GelatinMethacryloyl Hydrogel Based Bioinks. Shao L, Gao Q, Xie C, et al. Synchronous 3D Bioprinting of Large‐Scale Cell‐Laden Constructs with Nutrient Networks[J]. Advanced Healthcare Materials, 2019. Gao Q, Niu X, Shao L, et al. 3D printing of complex GelMA-based scaffolds with nanoclay[J]. Biofabrication, 2019, 11(3): 035006. 2018 ZHAO, Haiming, et al. Airflow‐Assisted 3D Bioprinting of Human Heterogeneous Microspheroidal Organoids with Microfluidic Nozzle. Small, 2018, 14.39: 1802630. NIE, Jing, et al. Vessel‐on‐a‐chip with Hydrogel‐ased Microfluidics. Small, 2018, 14.45: 1802368. SHAO, Lei, et al. Fiber‐Based Mini Tissue with Morphology‐Controllable GelMA Microfibers. Small, 2018, 14.44: 1802187. XIE, Mingjun, et al. Electro‐Assisted Bioprinting of Low‐Concentration GelMA Microdroplets. Small, 2018, 1804216. ZHOU, Luyu, et al. 3D Printed Wearable Sensors with Liquid Metals for the Pose Detection of Snakelike Soft Robots. ACS applied materials & interfaces, 2018. NIE, Jing, et al. 3D printed Lego®-like modular microfluidic devices based on capillary driving. Biofabrication, 2018, 10.3: 035001. GAO, Qing, et al. Fabrication of electrospun nanofibrous scaffolds with 3D controllable geometric shapes. Materials & Design, 2018, 157: 159-169. SHAO, Huifeng, et al. Custom Repair of Mandibular Bone Defects with 3D Printed Bioceramic Scaffolds. Journal of dental research, 2018, 97.1: 68-76. 2017 Wu Y, Gao Q, Nie J, et al. From MicrofluidicPaper-Based Analytical Devices to Paper-Based Biofluidics with IntegratedContinuous Perfusion[J]. ACS Biomaterials Science & Engineering, 2017,3(4): 601-607. 2015 Gao Q, He Y, Fu J, et al. Coaxial nozzle-assisted 3D bioprinting with built-in microchannels for nutrients delivery[J]. Biomaterials, 2015, 61: 203-215.