人才队伍
教学科研系列

undefined

基本信息

电话: +86-(0755)-86970230

地址: C428, HITSZ campus, Shenzhen Uni Town, Xili, Shenzhen 518055, China

邮箱: jinjing2020@hit.edu.cn

个人简介

金晶博士,现任哈尔滨工业大学(深圳)机电工程与自动化学院副教授,博士生导师。2013年本科毕业于重庆大学材料科学与工程专业(优秀毕业生),并于2016年被东南大学授予工学硕士学位(优秀研究生)。随后,其受澳大利亚联邦政府国际留学生全额奖学金(IPRS)资助,赴格里菲斯大学昆士兰微纳技术研发中心开展博士课题研究,师从国际微纳制造和微纳流体力学领域专家Prof. Nam-Trung Nguyen。2020年取得博士学位后,金晶博士随即被哈工大深圳机电学院聘为全职教研人员,从事独立科研和人才培养工作,主持国省市科研项目7项。近期研究方向为数字微流控,微纳制造,软物质科学,以及芯片实验室

招生招聘

目前,主要讲授本/硕专业课程2门,并依托机械工程专业每年招收1~2名博士研究生(欢迎双一流背景同学联系),2-3名硕士研究生(教育背景为机械,力学,材料和生物/化学等相关方向均可),欢迎志同道合的同学随时联系,多多交流!

工作经历

  • 2024/01至今           哈尔滨工业大学(深圳)/ 副教授、博士生导师

  • 2020/07-2023/12   哈尔滨工业大学(深圳)/ 助理教授、硕士生导师

  • 2020/03-2020/05   Queensland Micro- and Nanotechnology Centre / Research Assistant

学习经历

  • 2017-2020   澳大利亚格里菲斯大学   Doctor of Philosophy

  • 2013-2016   东南大学   工学硕士       Master of Engineering

  • 2009-2013   重庆大学   工学学士       Bachelor of Engineering    

研究方向

  • 微纳加工与制造

  • 智能液滴与软物质

  • 数字化微流控平台

  • 芯片实验室

  • 微型生化反应器/传感器

科研项目

  • 2023-2025   深圳市优秀科技创新人才培养-博士启动项目(主持)

  • 2023-2025   国家自然科学基金-青年基金项目(主持)

  • 2022-2024   军科委国防科技创新特区项目(参与)

  • 2022-2025   深圳市高校稳定支持-面上项目(主持)

  • 2022-2024   广东省自然科学基金-面上项目(主持)

  • 2021-2023   深圳市海外高层次人才科研启动项目(主持,已结题)

  • 2020-2023   广东省区域联合基金-青年基金项目(主持,已结题)

  • 2023-2024   哈工大(深圳)思政课程和课程思政专项课题(主持)

  • 2023-2025   哈工大(深圳)文理通识核心课程建设项目(主持)

  • 2020-2022   哈工大(深圳)新入职教师科研启动项目(主持,已结题)

  • 2018-2020   Australian Research Council (ARC) Discovery Project (DP180100055): Magnetofluidic sample handling for enhanced point-of-care diagnosis(参与,已结题)

  • 2017-2019   Australian Research Council (ARC) Discovery Project (DP170100277): Engineering floating liquid marbles for three-dimensional cell cultures(参与,已结题)
发明专利

  • 储成林;金晶;李旋;蒋俊;白晶;郭超;薛烽;林萍华 / 模拟材料在流体环境中受到循环拉压交替载荷的实验装置 / 国家发明专利 / 已授权 2019.03.05 / 中国

  • 金晶;储成林 / 一种多功能山地车挡板 / 国家发明专利 / 已授权 2018.03.09 / 中国

  • 储成林;蒋俊;金晶;李旋;白晶;郭超;薛烽;林萍华 / 一种模拟材料在流场环境中受到循环弯曲载荷的实验装置 / 国家发明专利 / 已授权 2018.08.28 / 中国

  • 储成林;李旋;金晶;韩林原;白晶;郭超;薛烽;林萍华 / 一种用于材料弯曲腐蚀疲劳实验的装置 / 国家发明专利 / 已公布,待授权 / 中国

学术报告

  • 2019   'Dielectrophoretic trapping of a floating liquid marble', Paper presented at the 10th Australia and New Zealand Nano and Microfluidics (ANZNMF) Conference, Wollongong, Australia.

  • 2019   'Dielectrophoretic trapping of non-stationary floating liquid marbles', Paper presented at the 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences (μTAS), Basel, Switzerland.

  • 2020   液体弹珠的可控介电操纵与生化应用研究,口头报告,第四届微流控技术应用创新论坛,中国·深圳

  • 2021   The 3rd International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip (ICMFLOC 2021), Session Chair, Shenzhen, China

  • 2022   非浸润微液滴的碰撞聚合和定向输运研究,口头报告,第五届微流控技术应用创新论坛,中国·广州

论文及著作


Google Scholar Link: ?Jing Jin? - ?Google 学术搜索?

  1. Jin, J.*, Huang, Z., Xie, Y., Shen, Z., Liu, B., & Chen, H.* (2024). Fabrication of stable monolayer liquid marbles with reduced particle coverage and locomotion on hydrophilic surface. Communications Materials, 5(1), 64.

  2. Yu, Z., Chen, Y., Li, J., Chen, C., Lu, H., Chen, S., ... Jin, J.*, Yan, S.* & Chen, H.* (2024). A tempo-spatial controllable microfluidic shear-stress generator for in-vitro mimicking of the thrombus. Journal of Nanobiotechnology, 22(1), 187.

  3. Li, B., Zhang, L., Bai, S., Jin, J.*, & Chen, H.* (2024). A brief overview of passive microvalves in microfluidics: Mechanism, manufacturing, and applications. Biomicrofluidics, 18(2).

  4. Liu, B., Jin, J.*, Ran, B., Chen, C., Li, J., Qin, N., & Zhu, Y.* (2024). Continuous production of bimetallic nanoparticles on carbon nanotubes based on 3D-printed microfluidics. Nanoscale, 16(5), 2565-2573.

  5. Yu, Z.#, Jin, J.#, Chen, S., Shui, L., Chen, H., Shi, L., & Zhu, Y. (2023). Smart droplet microfluidic system for single-cell selective lysis and real-time sorting based on microinjection and image recognition. Analytical Chemistry, 95(34), 12875-12883.

  6. Huang, Z., Xie, Y., Chen, H., Yu, Z., Shi, L., & Jin, J.*, Fundamentals and Manipulation of Bare Droplets and Liquid Marbles as Open Microfluidic Platforms. Processes, 11(4), 983.

  7. Liu, B., Chen, C., Ran, B., Shi, L., Wei, J., Jin, J.*, & Zhu, Y.*, Numerical Investigation of Flow Patterns and Mixing Characteristics in a 3D Micromixer with Helical Elements over Wide Reynolds Numbers. Advanced Theory and Simulations, 2200671.

  8. Cai, Y., Yu, E., Jin, J., Liu, Y., & Chen, H. (2023). Continuous trapping, elasticity measuring and deterministic printing of single cells using arrayed microfluidic traps. Lab on a Chip, 23(15), 3467-3478.

  9. Liu, B., Ran, B., Chen, C., Shi, L., Jin, J.*, & Zhu, Y.*, High-Throughput Microfluidic Production of Bimetallic Nanoparticles on MXene Nanosheets and Application in Hydrogen Peroxide Detection. ACS Applied Materials & Interfaces, 14 (50), 56298–56309.

  10. Chen, H.*, Meng, H., Chen, Z., Wang, T., Chen, C., Zhu, Y. and Jin, J.*, Size-Based Sorting and In Situ Clonal Expansion of Single Cells using Microfluidics. Biosensors, 12(12), p.1100.

  11. Chen, C., Ran, B., Liu, B., Liu, X., Jin, J.* and Zhu, Y.*, Numerical Study on a Bio-Inspired Micropillar Array Electrode in a Microfluidic Device. Biosensors, 12(10), p.878.

  12. Yu, Z., Jin, J., Shui, L., Chen, H., & Zhu, Y.*, Recent advances in microdroplet techniques for single-cell protein analysis. Trends in Analytical Chemistry, 143, 116411.

  13. Ooi, C. H., Vadivelu, R., Jin, J., Sreejith, K. R., Singha, P., Nguyen, N. K., & Nguyen, N.-T.*, Liquid marble-based digital microfluidics-fundamentals and applications. Lab on a Chip, 21(7), 1199-1216.

  14. Jin, J., Sreejith, K.R., Ooi, C.H., Dao, D.V., & Nguyen, N.-T.*, Critical trapping conditions for floating liquid marbles, Physical Review Applied, 13(1), 014002.

  15. Jin, J., Ooi, C.H., Sreejith, K.R., Zhang, J., Nguyen, A.V., Evans, G.M., ... & Nguyen, N.-T.*, Accurate dielectrophoretic positioning of a floating liquid marble with a two-electrode configuration. Microfluidics and Nanofluidics, 23(7), 85.

  16. Jin, J., Ooi, C.H., Sreejith, K.R., Dao, D.V., & Nguyen, N.-T.*, Dielectrophoretic trapping of a floating liquid marble. Physical Review Applied, 11(4), 044059.

  17. Ooi, C.H.*#, Jin, J.#, Sreejith, K.R., Nguyen, A.V., Evans, G.M. & Nguyen, N.-T., Manipulation of a floating liquid marble using dielectrophoresis. Lab on a Chip, 18(24), 3770-3779. (Co-first Author)

  18. Jin, J., Ooi, C.H., Dao, D.V., & Nguyen, N.-T.*, Liquid marble coalescence via vertical collision. Soft Matter, 14(20), 4160-4168.

  19. Jin, J., & Nguyen, N.-T.*, Manipulation schemes and applications of liquid marbles for micro total analysis systems. Microelectronic Engineering, 197, 87-95.

  20. Jin, J., Ooi, C.H., Dao, D.V., & Nguyen, N.-T.*, Coalescence processes of droplets and liquid marbles. Micromachines, 8(11), 336.

  21. Ooi, C.H., Jin, J., Nguyen, A.V., Evans, G.M., & Nguyen, N.-T.*, Picking up and placing a liquid marble using dielectrophoresis. Microfluidics and Nanofluidics, 22(12), 142.

  22. Tan, B.H., Zhang, J., Jin, J., Ooi, C.H., He, Y., Zhou, R., Ostrikov, K., Nguyen, N.-T., An, H.J.*, Direct measurement of the contents, thickness, and internal pressure of molybdenum disulfide nanoblisters. Nano Letters, 20(5), 3478-3484.

  23. P.-Gallage, H.N., Ooi, C.H., Jin, J., Sauret, E., … & Gu, Y.T.*, The stress-strain relationship of liquid marbles under compression. Applied Physics Letters, 114(4), 043701.

  24. Sreejith, K.R., Gorgannezhad, L., Jin, J., Ooi, C.H., Stratton, H., Dao, D.V., & Nguyen, N.-T.*, Liquid marbles as biochemical reactors for the polymerase chain reaction. Lab on a Chip, 19(19), 3220-3227.

  25. Sreejith, K.R., Ooi, C.H., Jin, J., Dao, D.V., & Nguyen, N.-T.*, Digital polymerase chain reaction technology–recent advances and future perspectives. Lab on a Chip, 18(24), 3717-3732.

 

友情链接
联系我们

地址:广东省深圳市南山区西丽大学城哈尔滨工业大学深圳园区G栋11楼

邮编:518000

电话:

Email:wangzhiyong@hit.edu.cn

哈工大(深圳)公众号
医工学院公众号

©版权所有 2024 医工学院