Name: Chen Jianfeng

Professional Title: Associate Professor

Email: cjf@ncu.edu.cn

Tutor Type: Master Supervisor (Mechanical Engineering/Instrument Science and Technology)

Courses Taught: Mechanical Design, Artificial Intelligence, Micro-machining Processes and Equipment

Research Interests

(1)Micro/Nano Manufacturing - Microfluidics and Surface Engineering Technology;

(2)Flexible Sensing and Detection;

(3)Artificial Intelligence and Industrial Internet

Education Background

2012.09 – 2017.07, University of Science and Technology of China, Instrument Science and Technology, Doctoral Degree

2007.09 - 2011.06, Nanchang University, Mechanical Design, Manufacturing and Automation, Bachelor's Degree

Work Experience

2017.07 ~ Present, Nanchang University, School of Advanced Manufacturing, Teacher

Academic Affiliations

(1)Member of the Micro/Nano Manufacturing Branch of the Chinese Mechanical Engineering Society;

(2)Youth Member of the Mechanical Design Branch of the Chinese Mechanical Engineering Society;

(3)Youth Member of the Surface Engineering Branch of the Chinese Mechanical Engineering Society;

Personal Honors

(1)May Fourth Youth Post Expert of Nanchang University;

(2)Jiangxi Ganpo Juncai - Leading Academic and Technical Talent (Youth Category)

Major Achievements

(1)National Natural Science Foundation of China Regional Science Fund / Research on Microfluidic Cell Transfection Method Based on Synergy of Viscoelastic Fluid Shear and Electric Field, 320,000 yuan

(2)National Natural Science Foundation of China Youth Science Fund / Research on Microfluidic Cell Transfection Method Based on Tunable Piezoelectric Impact Extrusion, 250,000 yuan

(3)Ganpo Juncai Support Program - Training Program for Leading Academic and Technical Talents in Key Disciplines (Youth Talent, Academic Category) / Research on Femtosecond Laser Micro/Nano Manufacturing-based Disc Centrifugal Microfluidic Cell Electroporation Method, 300,000 yuan

Published Papers

Published more than 40 papers and authorized more than 10 patents in recent years.

[1] Chen J, Peng K, Yang Y, et al. Hierarchical Iontronic Flexible Sensor with High Sensitivity over Ultrabroad Range Enabled by Equilibration of Microstructural Compressibility and Stability[J]. ACS sensors, 2025, 10(2): 921-931.

[2] Chen J, Hou R, Li S, et al. PAM/CNTs-Au microcrack sensor with high sensitivity and wide detection range for multi-scale human motion detection[J]. Sensors and Actuators A: Physical, 2024, 370: 115203.

[3] Li X, Huang L, Zhang J, Chen J*. Preparation and characterization of APTES-assisted Fe3O4/CNTs composites with high decontamination and high magnetic recovery capacity[J]. Surfaces and Interfaces, 2022, 31: 102017.

[4] Chen J, Yang Z, Xu W, et al. Sorting of circulating tumor cells based on the microfluidic device of a biomimetic splenic interendothelial slit array[J]. Microfluidics and Nanofluidics, 2021, 25(7): 57.

[5] Chen J, Liu H, Li C, et al. Simulation of microfluidic intracellular delivery based on the synergy of cell squeezing and electrical field[J]. Microfluidics and Nanofluidics, 2024, 28(1): 4.

[6] Zhang, Y., Yang, W., Zou, S., Wang, Z., Ke, Z.*, & Chen, J*. (2025). Enhanced boiling performance of microgrooves with ultrathin metal surfaces. Applied Thermal Engineering, 264, 12549.

[7] Chen J, Li C, Chen X, et al. In situ swelling of low-friction, high load-bearing self-bending bilayer hydrogels inspired by articular cartilage[J]. Biomedical Materials, 2025, 20(2): 025018.

[8] Chen J, Hu Y, Zhang Z, et al. Study on Oil–Water Separation Performance of PDA/ODA Composite–Modified Sponge[J]. Lubrication Science, 2024, 36(7): 521-530.

[9] Chen J, Chen X, Ma Y, et al. Effect of anisotropic structural depth on orientation and differentiation behavior of skeletal muscle cells[J]. ACS omega, 2023, 8(44): 41374-41382.

[10] Chen, X., Xia, Y., Du, W., Liu, H., Hou, R., Song, Y., ... & Chen, J*. (2023). Contact guidance drives upward cellular migration at the mesoscopic scale. Cellular and Molecular Bioengineering, 16(3), 205-218.

[11] Li, X., Cheng, Z., Chen, P., Gao, L., Wang, Z., & Chen, J*. (2022). Preparation and characterization of Ni/polydopamine functionalized graphene composites for lubrication. Diamond and Related Materials, 128, 109295.

[12] Chen J, Xu Z, Hu Y, et al. PEG‐assisted solvothermal synthesis of MoS2 nanosheets with enhanced tribological property[J]. Lubrication Science, 2020, 32(6): 273-282.

[13] Yu, X., Wang, H., Niu, F.*, Zhu, Y., Min, S., Zhan, T., Qiao, P. Chen, J* & Xu, B*. (2025). True “Liquid Diode”: Check Valve@ Janus Membrane to Achieve an Extremely High Reverse Breakthrough Pressure. ACS Applied Materials & Interfaces, 17(15), 23286-23294.

[14] Zhong, M., Zhang, Z., Xu, W., Yi, M., Li, X., & Chen, J. (2024). The effect of tongue viscoelasticity and papillae on food lubrication. Tribology International, 200, 110089.

[15] Xu, W., Huang, C., Liu, X., Zhong, M., Chen, J., Yi, M., & Li, X. (2024). Influences of ultrasonic vibration directions, amplitudes, and frequencies on sapphire polishing studied by molecular dynamics. Precision Engineering, 91, 155-173.

[16] Zhou, M., Zhong, M., Xu, W., Yi, M., Li, X., & Chen, J. (2024). Chemical mechanical polishing of sapphire elucidated by densely discrete phase model and verified using atomic force microscopy. Tribology International, 197, 109834.

[17] Zhou, M., Zhong, M., Xu, W., Li, X., Yi, M., & Chen, J. (2024). Effects of Frequency on the Performance of Ultrasonic Vibration Assisted Chemical Mechanical Polishing for Sapphire. ECS Journal of Solid State Science and Technology, 13(10), 104007.