马智超
博士,长聘教轨副教授,本科毕业于吉林大学,随后在新加坡科技设计大学获博士学位(获国家优秀自费留学生奖学金),并赴德国马克思·普朗克智能系统研究所开展博士后研究工作(洪堡学者),主要研究微机电系统及生物医学应用,致力于声学微粒操控技术的开发。在Nature Communications, Advanced Materials, Physical Review Letters 等高水平学术期刊发表论文30余篇。
2014-2018 新加坡科技设计大学 博士 (国家优秀自费留学生奖学金)
2010-2014 吉林大学 机械工程及自动化 学士 (卓越工程师班)
2022-至今 上海市交通大学 生物医学工程学院 长聘教轨副教授
2018-2021 马克思·普朗克智能系统研究所 博士后研究员(洪堡学者)
目前课题组研究主要关注微型化与智能化的生物医疗仪器开发,具有理、工、医交叉结合的特点。研究旨在推进医疗仪器发展,提供新型快速、非侵入式、定制化的检测和治疗手段。
具体研究方向包括:
1)微粒操控技术(例如细胞、载药颗粒等);
2)医用微型机器人的设计、制造、控制;
3)医学超声与微型声学器件。
Journal Articles
(1) Q. Yin, Y. Luo, X. Yu, K. Chen, W. Li, H.
Huang, L. Zhang, Y. Zhou, B. Zhu, Z. Ma*, W. Zhang*. Acoustic Cell Patterning for Structured Cell‐Laden Hydrogel
Fibers/Tubules. Advanced Science, 11, 2308396 (2024).
(2) Q. Yin, X. Li, Z. Ma*, W. Zhang*. Acoustically Activated Nozzle for Microdroplet
Generation and Dispensing. Physical Review Applied, 20, 2: 024067
(2023).
(3) R.
Goyal, A. G. Athanassiadis*, Z. Ma*, P.
Fischer. Amplification of acoustic forces using microbubble arrays enables
manipulation of centimeter-scale objects. Physical Review Letters,
128, 25, 254502 (2022).
(4) Z Ma*, H Joh, DE Fan, P Fischer*. Dynamic ultrasound projector controlled by light. Advanced
Science, 9, 9, 2104401 (2022).
(5) Z. Ma, K. Melde, A. G. Athanassiadis,
M. Schau, H. Richter, T. Qiu*, P. Fischer*. Spatial
Ultrasound Modulation by Digitally Controlling Microbubble Arrays. Nature Communications, 11, 1 (2020).
(6) Z. Ma, A. W. Holle, K. Melde, T.
Qiu, K. Poeppel, V. M. Kadiri, P. Fischer*. Acoustic
Holographic Cell Patterning in a Biocompatible Hydrogel. Advanced
Materials, 32, 1904181 (2020).
(7) Z. Ma, Y. Zhou, F. Cai, L. Meng,
H. Zheng, Y. Ai*. Ultrasonic Microstreaming for
Complex-Trajectory Transport and Rotation of Single Particles and Cells. Lab
on a Chip, 20, 2947 (2020).
(8) Z. Ma, Y. Zhou, D. J. Collins, Y. Ai*.
Fluorescence Activated Cell Sorting via a Focused Traveling Surface Acoustic
Beam. Lab on a Chip 17, 3176 (2017).
(9) Z. Ma, D. J. Collins, Y. Ai*. Detachable
Acoustofluidic System for Particle Separation via a Traveling Surface Acoustic
Wave. Analytical Chemistry, 88, 5316 (2016).
(10) Z. Ma, D. J. Collins, J. Guo, Y. Ai*.
Mechanical Properties Based Particle Separation via Traveling Surface Acoustic
Wave. Analytical Chemistry, 88, 11844 (2016).
Invited Review Articles
(1) M. Tian, Z. Ma*, G.-Z. Yang*. Micro/nanosystems for controllable drug delivery to the brain. The
Innovation, 5, 1 (2024).
(2) Y. Liu, Q. Yin, Y. Luo, Z. Huang, Q. Cheng, W.
Zhang, B. Zhou, Y. Zhou*, Z. Ma*. Manipulation
with sound and vibration: A review on the micromanipulation system based on
sub-MHz acoustic waves. Ultrasonics Sonochemistry, 96, 106441
(2023).
(3) Z. Ma*, P. Fischer*. Acoustic
micro-manipulation and its biomedical applications. Engineering,
24, 13 (2023).
(4) A.
G. Athanassiadis, Z. Ma, N.
Moreno-Gomez, K. Melde, E. Choi, R. Goyal, P. Fischer*. Ultrasound-Responsive
Systems as Components for Smart Materials. Chemical Reviews, 122,
5, 5165-5208 (2021).
邮箱地址:zhichaoma@sjtu.edu.cn
办公地址:转化医学大楼N215室