Xiaoxiao Chen

time:2026-01-25

Name：Xiaoxiao Chen   Academic Title: Lecturer     

Email：Chenxx@ncu.edu.cn  

Supervisor Type: (Not Specified)

Courses Taught: Engineering Drawing I, Engineering Drawing III

Research Focus

Dr. Chen's research concentrates on the cutting-edge areas of intelligent manufacturing, leveraging a robust interdisciplinary foundation in mechanical engineering, materials science, and micro-electro-mechanical systems (MEMS). Her current work involves the design of flexible electronic devices, materials development, and advanced manufacturing processes. She is actively exploring the deep integration of artificial intelligence algorithms, such as deep learning, with sensing technologies. To date, this research has led to the publication of more than 10 papers in domestic and international journals and the granting of four invention patents. As the principal investigator, she is currently leading one project funded by the Natural Science Foundation of Jiangxi Province.

Educational Background

Ø 2007.09—2011.07  Nanchang University Polymer Materials and Engineering Bachelor of Engineering

Ø 2015.09—2020.07  University of Science and Technology of China Instrument Science and Technology Ph.D. in Engineering

Work Experience

Ø 2021.07-Present, School of Advanced Manufacturing, Nanchang University Lecturer

Academic Appointments

Ø None

Personal Honors

Ø Awarded “Outstanding Undergraduate Class Advisor” at Nanchang University three times.

Ø Excellent Instructor for the 6th National College Student Innovation Experience Competition.

Major Achievements

(I) Research Projects:

Ø Jiangxi Provincial Natural Science Foundation – Youth Fund Project, Grant No. 20242BAB20203, Study on the Swelling Self assembly of Isotropic Hydrogel Microcrack Sensor and Its Application in Myocardial Detection, 2024/06 – 2027/05, Principal Investigator, Ongoing.

(II) Teaching Reform Projects

Ø Teaching Practice of Fundamental Engineering Drawing Courses Based on Engineering Education Accreditation, University-level, Project No. NCUJGLX-2023-149-51, 2023/06 – 2025/12, Completed.

（III）Publications:

1. Chen, X.; Du, W.; Cai, Z.; Ji, S.; Dwivedi, M.; Chen, J.; Zhao, G.; Chu, J., Uniaxial Stretching of Cell-Laden Microfibers for Promoting C2C12 Myoblasts Alignment and Myofibers Formation. ACS Applied Materials & Interfaces 2019, 12 (2), 2162-2170.

2. Chen, X.; Xia, Y.; Du, W.; Liu, H.; Hou, R.; Song, Y.; Xu, W.; Mao, Y.; Chen, J., Contact Guidance Drives Upward Cellular Migration at the Mesoscopic Scale. Cellular and Molecular Bioengineering 2023, 16 (3), 205-218.

3. Chen, J.; Liu, H.; Li, C.; Chen, X.*; Dai, Y., Simulation of microfluidic intracellular delivery based on the synergy of cell squeezing and electrical field. Microfluidics and Nanofluidics 2023, 28 (1).

4. Chen, J.; Chen, X.; Ma, Y.; Liu, Y.; Li, J.; Peng, K.; Dai, Y.; Chen, X.*, Effect of Anisotropic Structural Depth on Orientation and Differentiation Behavior of Skeletal Muscle Cells. ACS Omega 2023, 8 (44), 41374-41382.

5. Chen, J.; Hou, R.; Li, S.; Sun, C.; Peng, K.; Dai, Y.; Chen, X.*, PAM/CNTs-Au microcrack sensor with high sensitivity and wide detection range for multi-scale human motion detection. Sensors and Actuators A: Physical 2024, 370.

6. Chen, J.; Li, C.; Chen, X*.; Zhou, K.; Li, H.; Peng, K.; Yang, Y.; Dai, Y.; Huang, B., In situ swelling of low-friction, high load-bearing self-bending bilayer hydrogels inspired by articular cartilage. Biomedical Materials 2025, 20 (2), 025018.

7. Chen, J.; Peng, K.; Yang, Y.; Dai, Y.; Huang, B.; Chen, X.*, Hierarchical Iontronic Flexible Sensor with High Sensitivity over Ultrabroad Range Enabled by Equilibration of Microstructural Compressibility and Stability. ACS Sensors 2025. 10, 921−931.

8.  Chen, J.; Yang, Y.; Mao, Y.; Yang, N.; Xu Z.; Huang, B.; Dai, Y.*; Chen, X.*, Microcrack hydrogel sensors with ultrahigh sensitivity and broad detection range enabling deep learning-enhanced air-writing recognition. Chemical Engineering Journal 2025, 525, 170263.

9.  Huang, B.#; Chen, X. #; Wang, Y.; Liu, Y.; Zhou, J.; Liu, Y.; Yue, J.*, FeNi-modified carbon nanotube arrays on silicon carbide fibers for electromagnetic wave absorption. Ceramics International 2023, 49 (22), 36715-36723.

(IV) Patents:

1.Chen Xiaoxiao; Hou Ran; Chen Jianfeng, A coaxial microfluidic-based dual-exposure micro-wrinkled vascular fabrication platform and method, 2021-07-16, China, CN113817589A.

2.Chen Jianfeng; Liu Han; Song Yiyu; Chen Xuefei; Hou Ran; Chen Xiaoxiao; Yi Meirong; Zhong Min; Xu Wenhua, A cell transfection system based on microfluidic centrifugal extrusion under applied electric field, 2021-11-29, China, CN202111437337.5.

3.Chen Jianfeng; Zhou Fakang; Chen Xiaoxiao; Xu Wenhua; Zhong Min; Yi Meirong; Li Xiaobing, Microfluidic centrifugal extrusion-based cell transfection system and cell transfection method, 2021-09-03, China, CN202111031192.9.

4.Chen Jianfeng; Duan Yangkang; Chen Xiaoxiao; Xu Wenhua; Zhong Min; Yi Meirong; Li Xiaobing, A cell transfection device, cell transfection method, and microchannel fabrication method, 2021-12-21, China, CN113817589A.