Q. Cao, M. Liu, Z. Wang, X. Han, L. Li, Dynamic motion analysis of magnetic particles in microfluidic systems under an external gradient magnetic field, Microfluidics and Nanofluidics, 21 (2017): 24.
Q. Cao, Z. Lai, Q. Xiong, Q. Chen, T. Ding, X. Han, L. Li, Electromagnetic attractive forming of sheet metals by means of a dual-frequency discharge current: design and implementation, International Journal of Advanced Manufacturing Technology, 90 (2017): 309-316.
Liu M, Han X, Cao Q*, X. Han, , L. Li. Performance analysis of a microfluidic mixer based on high gradient magnetic separation principles, Journal of Physics D: Applied Physics, 50 (2017): 365004.
Q. Cao, X. Han, L. Chun, J. Liu, L. Li, Note: Magnetic targeting for enhancement of the activation efficiency of G protein-coupled receptor with a two-pair coil system, Review of Scientific Instruments, 87 (2016): 016103.
Q. Cao, Z. Wang, B. Zhang, Y. Feng, S. Zhang, X. Han, L. Li, Targeting behavior of magnetic particles under gradient magnetic fields produced by two types of permanent magnets, IEEE Transactions on Applied Superconductivity, 26 (2016): 4401305.
X. Han, Y. Feng, Q. Cao*, L. Li, Three-dimensional analysis and enhancement of continuous magnetic separation of particles in microfluidics, Microfluidics and Nanofluidics, 18 (2015): 1209-1220.
Q. Cao, X. Han, Z. Lai, Q. Xiong, X. Zhang, Q. Chen, H. Xiao, L. Li, Analysis and reduction of coil temperature rise in electromagnetic forming, Journal of Materials Processing Technology, 225 (2015): 185-194.
Q. Cao, X. Han, L. Li, An active microfluidic mixer utilizing a hybrid gradient magnetic field, International Journal of Applied Electromagnetics and Mechanics, 47 (2015): 583-592.
Q. Cao, L. Li, Z. Lai, Z. Zhou, Q. Xiong, X. Zhang, X. Han, Dynamic analysis of electromagnetic sheet metal forming process using finite element method, International Journal of Advanced Manufacturing Technology, 74 (2014): 361-368.
Q. Cao, X. Han, L. Li, Configurations and control of magnetic fields for manipulating magnetic particles in microfluidic applications: magnet systems and manipulation mechanisms, Lab on a Chip, 14 (2014): 2762-2777.