Li, Y.-J.; Hou, H.-M.; Hu, Q.-F.; Yuan, L.-J.; Xue, C.-D.; Chen, D.; Hu, X.-Q.; Qin, K.-R.
A Variable Cross-Section Microfluidic Channel for Simultaneous Reproduction of Low Oscillatory and Pulsatile Wall Shear Stress at the Carotid Bifurcation: A Computational Fluid Dynamics-Based Study. Biosensors 2025, 15, 648.
https://doi.org/10.3390/bios15100648
AMA Style
Li Y-J, Hou H-M, Hu Q-F, Yuan L-J, Xue C-D, Chen D, Hu X-Q, Qin K-R.
A Variable Cross-Section Microfluidic Channel for Simultaneous Reproduction of Low Oscillatory and Pulsatile Wall Shear Stress at the Carotid Bifurcation: A Computational Fluid Dynamics-Based Study. Biosensors. 2025; 15(10):648.
https://doi.org/10.3390/bios15100648
Chicago/Turabian Style
Li, Yong-Jiang, Hui-Min Hou, Qi-Fei Hu, Li-Jin Yuan, Chun-Dong Xue, Dong Chen, Xu-Qu Hu, and Kai-Rong Qin.
2025. "A Variable Cross-Section Microfluidic Channel for Simultaneous Reproduction of Low Oscillatory and Pulsatile Wall Shear Stress at the Carotid Bifurcation: A Computational Fluid Dynamics-Based Study" Biosensors 15, no. 10: 648.
https://doi.org/10.3390/bios15100648
APA Style
Li, Y.-J., Hou, H.-M., Hu, Q.-F., Yuan, L.-J., Xue, C.-D., Chen, D., Hu, X.-Q., & Qin, K.-R.
(2025). A Variable Cross-Section Microfluidic Channel for Simultaneous Reproduction of Low Oscillatory and Pulsatile Wall Shear Stress at the Carotid Bifurcation: A Computational Fluid Dynamics-Based Study. Biosensors, 15(10), 648.
https://doi.org/10.3390/bios15100648
