澳门·威尼克斯人(中国区)官方网站

齐成      副教授

性别:

邮箱: cqi@szu.edu.cn

办公室: 机电大楼S508

人才称号: 深圳市海外高层次人才

最终学位: 博士

办公电话:

导师资格: 硕导

研究领域:

招生/招聘:
1. 每年招收研究生2-4名,欢迎对新兴和交叉学科感兴趣的学生,有意者请联系微信/QQ(992149689);
2. 本课题组现招聘博士后研究人员1名,有意者请发个人简历至: cqi@szu.edu.cn。

课题组介绍:目前课题组有三位老师,两位副研究员,一位在站博士后,三十名在读硕士研究生,具有机械、力学、生物、材料、化学等多学科交叉的研究背景。团队已在国际知名杂志上发表多篇高水平论文,包括Nature Communications、PNAS、Advanced Materials、Angewandte Chemie、Advanced Functional Materials、Advanced Science、Advanced Energy Materials、ACS Nano、Small、Materials Horizons、Applied Physics Letters等。课题组与清华大学、香港大学、香港城市大学、浙江大学、南京大学、东南大学等高校相关团队保持密切学术交流,可提供访学机会,毕业后可推荐至以上高校继续深造。

课题组网站:http://www.szusoftmatter.com/
课题组微信公众号:SZU微流控与软物质研究组

主要研究方向:
(一)智能磁控系统与微型软体机器人
(二)人工智能辅助微流控芯片开发
(三)面向医工交叉的微纳制造技术

【如果认同以下理念,十分渴望你的加入:】
1.“Discovery is simply seeing what everyone else has seen - but thinking what no-one else has thought“ by 诺贝尔生理学或医学奖得主Albert Szent-Györgyi
“见人皆所见、思人所未思”,我们致力于追求那种能够洞察他人所见、思考他人未思的境界,从日常现象中挖掘出科学真理和法则。因此,需要擅于思考、勇于提问,发挥天马行空的创意,并持之以恒为之探索
2.“兴趣是创新之源” by 诺贝尔物理学奖得主杨振宁
我们选择研究课题的标准在于兴趣,而非单纯的实用价值,对未知的好奇是科学最纯粹的追求。我们不追求那些总能按部就班、有固定套路的课题,因为坚信重大创新往往孕育于意料之外。然而这种课题往往具有不确定性,需要有较强的抗压能力和学术纯粹性

主讲本科课程:

有限元分析方法、流体力学、微分方程

教育背景:

1. 2012/09–2016/09,香港大学,机械工程系,博士学位
2. 2008/09–2012/07,华中科技大学,船舶与海洋工程系,学士学位

工作履历:

1. 2023/09–至  今,副研究员、副教授,机电系,深圳大学
2. 2018/05–2023/09,助理教授,机电系,深圳大学
3. 2017/01–2018/04,讲师、副教授,工程结构与力学系,武汉理工大学
4. 2016/09–2017/01,博士后,机械工程系,香港大学

主持项目:

主持项目:
[1] 国家自然科学基金-重点项目子课题,2024.01-2028.12
[2] 国家自然科学基金-青年项目,2024.01-2026.12
[3] 广东省普通高校重点领域专项(高端装备制造(智能机器人、新材料)),2024.10-2027.10
[4] 广东省自然科学基金-面上项目,2023.01-2025.12
[5] 深圳市稳定支持计划-面上项目,2022.10-2024.09
[6] 实验室开放课题,2023.09-2026.08

已结题:
[1] 广东省区域联合基金-青年项目,2020.10-2023.09
[2] 高端人才科研启动费,2020.01-2022.12
[3] 青年教师科研启动项目,2019.09-2022.08
[4] 企业课题,2023.07-2024.07

代表期刊论文 :

近年来以第一/通讯作者身份在Nature Communications(IF = 16.6)、Advanced Materials(IF = 29.4)、ACS Nano(IF = 17.1)、Advanced Science(IF = 15.1)、Applied Physics Letters、《科学通报》(英文版)(IF = 18.9)等国内外知名期刊上发表学术论文

2024
[1] C. Qi, X. Ma, Q. Zeng, Z. Huang, S. Zhang, X. Deng, T. Kong*, Z. Liu*, Multicompartmental coacervate-based protocell by spontaneous droplet evaporation, Nature Communications, 15 (2024) 1107.
[2] T. Zhou#, Z. Liu#, X. Ma, C. Cen, Z. Huang, Y. Lu, T. Kong*, C. Qi*, Thermally-resilient, phase-invertible, ultra-stable all-aqueous compartments by pH-modulated protein colloidal particles, Journal of Colloid and Interface Science 665 (2024) 413.
[3] C. Qi, T. Zhou, X. Wu, K. Liu, L. Li, Z. Liu, Z. Chen*, J. Xu*, T. Kong*, Micro-nano-fabrication of green functional materials by multiphase microfluidics for environmental and energy applications, Green Energy & Environment 9(8) (2024) 1199
[4] N. Wu#, S. Meng#, Z. Li#, J. Fang, C. Qi, T. Kong, Z. Liu*, Tailoring the Heterogeneous Structure of Macro-Fibers Assembled by Bacterial Cellulose Nanofibrils for Tissue Engineering Scaffolds, Small 20 (2024) 2307603.
[5] D. Wu#, S. Wang#, L. Li, S. Meng, C. Qi, T. Kong*, Z. Liu*, Particle levitation tensiometry (PLT) for probing interfaces of liquid–liquid phase separation systems (LLPSs), Applied Physics Letters 124 (16) (2024).
[6] M. Yang, L. Chu, Y. Zhuang, C. Qi, S. Meng*, Z. Liu, T. Kong*, Multi‐Material Digital Light Processing (DLP) Bioprinting of Heterogeneous Hydrogel Constructs with Perfusable Networks, Advanced Functional Materials 34 (2024) 2316456.
[7] Y. Wang#, L. Chu#, S. Meng*, M. Yang, Y. Yu, X. Deng, C. Qi, T Kong*, Z. Liu*, Scalable and Ultra-Sensitive Nanofibers Coaxial Yarn-Woven Triboelectric Nanogenerator Textile Sensors for Real-Time Gait Analysis, Advanced Science 11 (2024) 2401436.
[8] F. Yan#, K. Liu#, J. Zhang, T. Zhou, J. Huang, F. Wang, C. Qi, J. Xu, S. Cui, A. Chen*, The efficient synthesis of Pregabalin with impurity control using a continuous flow system, Chemical Engineering and Processing - Process Intensification 202 (2024) 109835.

2023
[1] C. Qi, X. Ma, J. Zhong, J. Fang, Y. Huang, X. Deng, T. Kong*, Z. Liu*, Facile and Programmable Capillary-Induced Assembly of Prototissues via Hanging Drop Arrays, ACS Nano, 17 (17) (2023) 16787–16797.
[2] S. Zhang#, C. Qi#, W. Zhang#, H. Zhou, N. Wu, M. Yang, S. Meng, Z. Liu*, T. Kong*, In Situ Endothelialization of Free-Form 3D Network of Interconnected Tubular Channels via Interfacial Coacervation by Aqueous-in-Aqueous Embedded Bioprinting, Advanced Materials, 35 (7) (2023) 2209263.
[3] S. Meng, Y. Zhang, N. Wu, C. Peng, Z. Huang, Z. Lin, C. Qi, Z. Liu*, T. Kong*, Ultrasoft, sensitive fiber-like sensor by assembly of bacterial cellulose (BC) nanofibrils and BC molecules for biocompatible strain sensing, Nano Research, 16(3) (2023) 4067-4076.
[4] B. Kong, C. Qi, H. Wang*, T. Kong*, Z. Liu*, Tissue adhesives for wound closure, Smart Medicine, 2(1) (2023) e20220033.

2022
[1] J. Fang#, Y. Zhuang#, K. Liu, Z. Chen, Z. Liu, T. Kong, J. Xu*, C. Qi*, A Shift from Efficiency to Adaptability: Recent Progress in Biomimetic Interactive Soft Robotics in Wet Environments, Advanced Science, 9 (2022) 2104347.

2021
[1] Y. Liu, H. Zhou, W. Zhou, S. Meng, C. Qi, Z. Liu, T. Kong*, Biocompatible, high-performance, wet-adhesive, stretchable all-hydrogel supercapacitor implant based on PANI@rGO/Mxenes electrode and hydrogel electrolyte, Advanced Energy Materials, 11 (2021) 2101329.
[2] R. Yang, B. Wang, B. Xu, C. Qi, W. He, C. Zhao, L. Zhu*, F. Luo*, Influence of ultrasound on forming force in thin sheetmetal microforming using molten plastic as flexible punch, Materials & Design, 212 (2021) 110239.

2020
[1] C. Qi, Z. Liu*, T. Kong*, Turning liquid metals into elastic ropes, Science Bulletin, 65 (2020) 2043-2044.
[2] C. Qi, Y. Li, Z. Liu*, T. Kong*, Electrohydrodynamics of droplets and jets in multiphase microsystems, Soft Matter, 16 (2020) 8526-8546.
[3] Z. Liu, W. Zhou, C. Qi, T. Kong*, Interface Engineering in Multiphase Systems toward Synthetic Cells and Organelles: From Soft Matter Fundamentals to Biomedical Applications, Advanced Materials, 32 (2020) 2002932.
[4] X. Shi, P. Lv, C. Qi*, Explicit solutions to a nonlocal 2-component complex modified Korteweg–de Vries equation, Applied Mathematics Letters, 100 (2020) 106043.

2019
[1] R. Sun, W. Hu, B. Jiao, C. Qi*, Heat transfer characteristics and entropy generation of electroosmotic flow in a rotating rectangular microchannel, International Journal of Thermal Sciences, 140 (2019) 238-254.
[2] X. Chen, P. Liu, C. Qi*, T. Wang, Z. Liu*, T. Kong*, Non-coalescence of oppositely charged droplets in viscous oils, Applied Physics Letters, 115 (2019).
[3] S. Huang, C. Wu, C. Qi*, Rational and semi-rational solutions of the modified Kadomtsev–Petviashvili equation and the (2+1)-dimensional Konopelchenko–Dubrovsky equation, Nonlinear Dynamics, 97 (2019) 2829-2841.

2018
[1] C. Qi*, C.-O. Ng, Electroosmotic flow of a two-layer fluid in a slit channel with gradually varying wall shape and zeta potential, International Journal of Heat and Mass Transfer, 119 (2018) 52-64.
[2] C. Qi, C. Wu*, Electromagnetohydrodynamic flow in a rectangular microchannel, Sensors and Actuators B: Chemical, 263 (2018) 643-660.
[3] C. Qi, C.-O. Ng*, Rotating electroosmotic flow in a non-uniform microchannel, Meccanica, 53 (2018) 2105-2120.

Before 2017
[1] C. Qi, C.-O. Ng*, Rotating electroosmotic flow of viscoplastic material between two parallel plates, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 513 (2017) 355-366.
[2] C. Qi, C.-O. Ng*, Rotating electroosmotic flow of an Eyring fluid, Acta Mechanica Sinica, 33 (2017) 295-315.
[3] C. Qi, C.-O. Ng*, Electroosmotic flow of a power-law fluid in a slit microchannel with gradually varying channel height and wall potential, European Journal of Mechanics - B/Fluids, 52 (2015) 160-168.
[4] C. Qi, C.-O. Ng*, Electroosmotic flow of a power-law fluid through an asymmetrical slit microchannel with gradually varying wall shape and wall potential, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 472 (2015) 26-37.
[5] C.-O. Ng*, C. Qi, Electro-osmotic flow in a rotating rectangular microchannel, Proceedings Mathematical Physical & Engineering Sciences, 471 (2015) 20150200.
[6] C.-O. Ng*, C. Qi, Electroosmotic flow of a power-law fluid in a non-uniform microchannel, Journal of Non-Newtonian Fluid Mechanics, 208-209 (2014) 118-125.
[7] C.-O. Ng*, C. Qi, Electroosmotic flow of a viscoplastic material through a slit channel with walls of arbitrary zeta potential, Physics of Fluids, 25 (2013) 103102.

代表会议论文:

[1] Invited,阵列化液滴微反应器的构筑方法及其原理,2024年中国化工学会第二届微化工技术年会,2024年6月28-30日,江苏常州

获得荣誉:

[1] 2022年11月 中国化工学会科学技术奖“基础研究成果奖”二等奖

指导学生获奖:
[1] 2024年 香港大学博士研究生全额奖学金(4-Year PhD Scholarship)(马旭东,2021级硕士研究生)
[2] 2024年 香港城市大学博士研究生全额奖学金(4-Year PhD Scholarship)(周涛,2021级硕士研究生)
[3] 2024年 中国大学生机械工程创新创意大赛“明石杯”一等奖(刘凯浪,2021级硕士研究生)
[4] 2024年 中国大学生机械工程创新创意大赛“明石杯”一等奖(曾琪,2022级硕士研究生)
[5] 2024年 深圳大学2024届优秀毕业研究生(周涛、马旭东,2021级硕士研究生)
[6] 2023年 硕士研究生国家奖学金(马旭东,2021级硕士研究生)
[7] 2023年 第八届全国大学生生物医学工程创新设计竞赛一等奖(马旭东,2021级硕士研究生)
[8] 2023年 中国大学生机械工程创新创意大赛“明石杯”一等奖(赵阳,2021级硕士研究生)
[9] 2023年 深圳大学2023届优秀毕业研究生(方捷伦,2020级硕士研究生)
[10] 2022年 硕士研究生国家奖学金(方捷伦,2020级硕士研究生)
[11] 2022年 中国大学生机械工程创新创意大赛“明石杯”一等奖(李文俊,2020级硕士研究生)
[12] 2021年 中国大学生机械工程创新创意大赛“明石杯”二等奖(李文俊、钟俊锋,2020级硕士研究生)

主要学术兼职:

[1] Springer Nature出版集团旗下期刊Microsystem and Nanoengineering(中科院工程技术大类1区,IF = 7.3)青年编委
[2] 中国化工学会微化工技术专业委员会第一届委员会(青年委员) 2022年8月—2027年8月
[3] 深圳市机械工程学会先进制造分会理事 2023年11月

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