基本信息

朱卉

 

 

朱卉

博士/助理教授

硕士生导师

 

 

先进制造技术研究所

机械制造系统工程国家重点实验室

 

联系方式

办公地址:

西安交通大学曲江校区西五楼B225

西安市雁翔路99号 

邮编:710054 

 

联系方式:

邮箱:hui.zhu@xjtu.edu.cn

 

教育经历

2017-11 至 2018-11,Technische Universität Berlin(德国),材料科学与技术,联合培养博士,导师:Prof. Aleksander Gurlo

2012-09 至 2019-06,西安交通大学,材料科学与工程,博士,保送

2008-09 至 2012-07,长安大学,机械设计制造及自动化,学士
 

荣誉称号

2019:”CSC-DAAD ”(中、德政府)博士后奖学金;西安交通大学出国访问一等奖学金

2015:西安交通大学研究生会执行副秘书长;优秀学生干部;优秀研究生

2012:  优秀毕业论文

2011: “山东临工” 奖学金

2010:  国家奖学金

2009:  国家励志奖学金

2008:  陕西省“三好学生”,西安市“三好学生”

站点计数器

招生信息

硕士研究生:085501 机械工程

 

01(全日制) 高端/智能制造装备与系统

03(全日制) 先进成形与车辆工程

04(全日制) 增材制造(3D打印)技术

 

欢迎加入!期待有意向进入实验室工作的本科生、硕士生邮件咨询(不限专业)~:)

课题组长年与德国、英国、阿联酋等国内外知名高校保持国际合作研究关系,硕博组员均有机会出国开展科研工作

工作经历

 2021-07 至 今,西安交通大学,机械工程学院,助理教授
 2019-11 至 2021-04,Friedrich-Alexander-Universität Erlangen-Nürnberg(德国),博士后,

                                    导师:德国科学与工程院院士,Prof. Aldo R. Boccaccini

研究领域

研究方向:

1. 生物3D打印(细胞打印)活性组织,生物制造技术,4D打印技术;

2. 智能导电传感植入物研发,神经仿生制造技术;

3. 柔性电子传感,电子皮肤;

4. 器官芯片,类生命系统的体外应用。

 

所在团队:

李涤尘   教授; 贺健康   教授; 王玲  教授; 连芩  教授; 李骁  教授; 高琳  副教授;

毛茅   助理教授;孙畅宁  助理教授

 

 

研究成果:

 

2023

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[1] H. Zhu, C. Yao, B. Wei, C. Xu, X. Huang, Y. Liu, J. He, J. Zhang, D. Li, 3D printing of functional bioengineered constructs for neural regeneration: A review, International Journal of Extreme Manufacturing  (2023). (IF=14.7)

[2] H. Luo, X. Zhang, H. Zhu, K. Zhang, F. Yang, K. Xu, S. Yu, D. Guo, Tailoring d-band center over electron traversing effect of NiM@C-CoP (M=Zn, Mo, Ni, Co) for high-performance electrocatalysis hydrogen evolution, Journal of Materials Science & Technology 166 (2023) 164-172.(IF=10.9)

[3] L.B. Bai, Z. Hao, S. Wang, J. Zhou, S. Yao, N. Pei, H. Zhu, K. Zhang, R. L. Reis, J.M. Oliveira, J. He, D. Li, X. Mao, L. Wang, Biomimetic three-dimensional glioma model printed in vitro for the studies of glioma cells and neurons interactions, 2023 9(4) (2023).(IF=7.422)

[4] A. Kasimu#, H. Zhu#, Z. Meng, Z. Qiu, Y. Wang, D. Li, J. He, Development of Electro-Conductive Composite Bioinks for Electrohydrodynamic Bioprinting with Microscale Resolution, Advanced Biology n/a(n/a)  2300056. (共同一作)(IF=4.053)

[5] M. Mao, X. Qu, Y. Zhang, B. Gu, C. Li, R. Liu, X. Li, H. Zhu, J. He, D. Li, Leaf-venation-directed cellular alignment for macroscale cardiac constructs with tissue-like functionalities, Nature Communications 14(1) (2023) 2077.(IF=16.6)

[6] C. Yao, Z. Qiu, X. Li, H. Zhu, D. Li, J. He, Electrohydrodynamic Printing of Microfibrous Architectures with Cell-Scale Spacing for Improved Cellular Migration and Neurite Outgrowth, Small 19(19) (2023) 2207331.(IF=13.3)

 

 

 

Before 2022

-----------------------------

[1] Z. Qiu #1, H. Zhu #1, Y. Wang, A. Kasimu, D. Li, J. He, Functionalized alginate-based bioinks for microscale electrohydrodynamic bioprinting of living tissue constructs with improved cellular spreading and alignment, Bio-Design and Manufacturing  (2022).

[2] J. Zhang, Y. Su, X. Rao, H. Pang, H. Zhu, L. Liu, L. Chen, D. Li, J. He, J. Peng, Y. Jiang, Additively manufactured polyether ether ketone (PEEK) skull implant as an alternative to titanium mesh in cranioplasty, 2022 9(1) (2022).

[3] Y. Su, Z. Li, H. Zhu, J. He, B. Wei, D. Li, Electrohydrodynamic Fabrication of Triple-layered Polycaprolactone Dura Mater Substitute with Antibacterial and Enhanced Osteogenic Capability, Chinese Journal of Mechanical Engineering: Additive Manufacturing Frontiers 1(2) (2022) 100026.

[4] H. Zhu, W. Dai, L. Wang, C. Yao, C. Wang, B. Gu, D. Li, J. He, Electroactive Oxidized Alginate/Gelatin/MXene (Ti3C2Tx) Composite Hydrogel with Improved Biocompatibility and Self-Healing Property, Polymers 14(18) (2022) 3908.(IF=4.967)

[5] S. Heid, K. Becker, J. Byun, I. Biermann, Z. Neščáková, H. Zhu, J. Groll, A.R. Boccaccini, Bioprinting with bioactive alginate dialdehyde-gelatin (ADA-GEL) composite bioinks: Time-dependent in-situ crosslinking via addition of calcium-silicate particles tunes in vitro stability of 3D bioprinted constructs, Bioprinting 26 (2022) e00200.

[6] H. Zhu, M. Monavari, K. Zheng, T. Distler, L. Ouyang, S. Heid, Z. Jin, J. He, D. Li, A.R. Boccaccini, 3D Bioprinting of Multifunctional Dynamic Nanocomposite Bioinks Incorporating Cu-Doped Mesoporous Bioactive Glass Nanoparticles for Bone Tissue Engineering, Small n/a(n/a) (2022) 2104996.(IF=13.3)

[7] S. Yu, D. Zeng, H. Zhu, W. Zhang, L. Wang, Z. Yu, W. Huo, D. Guo, M. Zhang, G. Wang, Improvement on biocompatibility and corrosion resistance of a Ti3Zr2Sn3Mo25Nb alloy through surface nanocrystallization and micro-arc oxidation, Journal of Materials Science 57(8) (2022) 5298-5314.

[8] H. Zhu, K. Zheng, A.R. Boccaccini, Multi-Functional Silica-Based Mesoporous Materials for Simultaneous Delivery of Biologically Active Ions and Therapeutic Biomolecules, Acta Biomater. 129 (2021) 1-17.(IF=9.7)

[9] S. Yu, Z. Yu, D. Guo, H. Zhu, M. Zhang, J. Han, Z. Yu, Y. Cao, G. Wang, Enhanced bioactivity and interfacial bonding strength of Ti3Zr2Sn3Mo25Nb alloy through graded porosity and surface bioactivation, Journal of Materials Science & Technology  (2021).

[10] H. Zhu, K. Zheng, D. Guo, H. Zang, S. Yu, K. Xu, Engineering microstructure of hydroxyapatite by electron beam irradiation to induce controllable in vitro degradation, Appl. Surf. Sci. 528 (2020) 146583.(IF=7.392)

[11] S. Yu, D. Guo, J. Han, L. Sun, H. Zhu, Z. Yu, M. Dargusch, G. Wang, Enhancing Antibacterial Performance and Biocompatibility of Pure Titanium by a Two-Step Electrochemical Surface Coating, ACS Applied Materials & Interfaces 12(40) (2020) 44433-44446.

[12] H. Zhu, D. Guo, H. Zang, D.A.H. Hanaor, S. Yu, F. Schmidt, K. Xu, Enhancement of hydroxyapatite dissolution through structure modification by Krypton ion irradiation, Journal of Materials Science & Technology 38 (2020) 148-158.(IF=10.9)

[13] H. Zhu, D. Guo, L. Sun, H. Li, D.A.H. Hanaor, F. Schmidt, K. Xu, Nanostructural insights into the dissolution behavior of Sr-doped hydroxyapatite, J. Eur. Ceram. Soc. 38(16) (2018) 5554-5562.(IF=5.7)

[14] C. Yan, X. Song, H. Zhu, C. Jing, S. Feng, Flexural response of carbon fiber reinforced aluminum foam sandwich, J. Compos. Mater. 52(14) (2018) 1887-1897.

[15] H. Zhu, D. Guo, W. Qi, K. Xu, Development of Sr-incorporated biphasic calcium phosphate bone cement, Biomedical Materials 12(1) (2017) 015016.

[16] L. Wang, D.-G. Guo, H. Zhu, L. Xie, Light emitting diodes (LEDs) encapsulation of polymer composites based on poly (propylene fumarate) crosslinked with poly (propylene fumarate)-diacrylate, RSC Advances 5(65) (2015) 52888-52895.

[17] D. Guo, Y.Z. Hao, H.Y. Li, C.Q. Fang, L.J. Sun, H. Zhu, J. Wang, X.F. Huang, P.F. Ni, K.W. Xu, Influences of Sr dose on the crystal structure parameters and Sr distributions of Sr‐incorporated hydroxyapatite, Journal of Biomedical Materials Research Part B: Applied Biomaterials 101(7) (2013) 1275-1283.

 

欢迎访问个人学术主页: Research GateGoogle Scholar

 

 

 

会议:

  1. H. Zhu, D. G. Guo. Effect of heavy ion irradiation on the crystal structure and in vitro dissolution property of hydroxyapatite nano-fibers. September 2017, EMRS 2017 FALL MEETING (Poster).

  2. H. Zhu, K. Zheng, J. Hazur, A.R. Boccaccini. High performance 3D-bioprinted biofunctionalized ADA-GEL containing Cu-MBGs for bone tissue engineering. September 2021, MSE (Oral presentation).