Peer-reviewed publications:

Mohammadigoushki Group

Soft Matter | Fluid Dynamics | Instabilities | Rheology | NMR | Flow Visualization


31. Scigliani, A. Grant, S. C. and Mohammadigoushki, H.*, "Probing Micellar Topology via NMR Diffusometry", In preparation (2022)

30. Bhagu, J., Grant, S.C., Mohammadigoushki, H.*, "Volume Selective NMR Spectroscopy of Monoclonal Antibodies at Fluid-Fluid Interfaces", In preparation (2021)

29. Mohammadigoushki, H.*, "Cavitation Rheology of Gels", Submitted (2022)

28. Rassolov, P., Mohammadigoushki, H.*, "Effects of Micellar Entanglements on Kinetics of Shear Banding Flow Formation in Wormlike Micelles", Submitted (2022)

27. Nazari, F., Shoele, K., Mohammadigoushki, H.*, "Helical Locomotion in Gels", Submitted (2022)

26. Eastham, P. S., Mohammadigoushki, H., Shoele, K.*, "Squirmer locomotion in a yield stress fluid", In Press Journal of Fluid Mechanics (2022)

25. Rassolov, P., Mohammadigoushki, H.*, "Kinetics of shear banding flow formation in linear and branched wormlike micelles", Soft Matter 18, 6079-6093 (2022)

24. Wu, S., Solano, T, Shoele, K. Mohammadigoushki, H.*, "Formation of a Strong Negative Wake Behind a Helical Swimmer in Viscoelastic Fluids", Journal of Fluid Mechanics 942, (2022)


23. Wu, S., Mohammadigoushki, H.*, "Linear versus Branched: Flow of a Wormlike Micellar Fluid Past a Falling Sphere", Soft Matter 17 (16), 4395-4406 (2021)

22. Holder, S., Grant, S. C., Mohammadigoushki, H.*, "Nuclear Magnetic Resonance Diffusometry of Linear and Branched Wormlike Micelles", Langmuir 37(12), 3585-3596 (2021)


21. Rothstein, J. P., Mohammadigoushki, H.*, "Invited Review: Complex Flows of Viscoelastic Wormlike Micelle Solutions.", J. Non-Newtonian. Fluid Mech. (2020)

20. Rassolov, P., Mohammadigoushki, H.*, "Effects of Elasticity and Flow Ramp up on Kinetics of Shear Banding Flow Formation in Wormlike Micellar Fluids", J. Rheol. 64 (5), 1161-1177 (2020)

19. Wu, S., Mohammadigoushki, H.*, "Effects of Moving Contact Line on Filament Pinch-off Dynamics in Viscoelastic Surfactant Fluids", Phys. Rev. Fluids. 5, 053303, (2020)


18. Wu, S., Mohammadigoushki, H.*, "Flow of Wormlike Micelles Past a Falling Sphere in the Dilute Regime", Phys. Rev. Fluids. 4, 073303, (2019) (PDF)

17. Mohammadigoushki, H.*, Dalili, A., Zhou, L., Cook, P. "Transient Evolution of Flow Profiles in a Shear Banding Wormlike Micellar Solution: Experimental Results and a Comparison with the VCM Model", Soft Matter 15, 5483, (2019) (PDF)

16. Omidvar, R. Wu, S., Mohammadigoushki, H.*, "Detecting Wormlike Micellar Microstructure Using Extensional Rheology", J. Rheol. 63(1), 33-44, (2019) (PDF)


15. Zhang, Y., Mohammadigoushki, H., Hwang, M. and Muller, S. J.*, "Flow of wormlike micellar fluids around a sharp bend: Effects of branching and shear-banding" Phys. Rev. Fluids. 3, 093301, (2018) (PDF)

14. Wu, S., Mohammadigoushki, H.*, "Flow of wormlike micellar solutions past a sphere: role of micellar relaxation spectrum and gradients in micellar extensions" J. Rheol. 62, 1061 (2018) (PDF)

13. Mohammadigoushki, H.*, and Muller, S. J., "Creeping flow of a wormlike micelle solution past a sphere: Role of boundary conditions" J. Non-Newtonian Fluid Mech. 257, 44-49 (2018) (PDF)

12. Omidvar, R, Dalili, A, Mir, A, and Mohammadigoushki, H.*, "Exploring sensitivity of extensional flow to wormlike micellar structure" J. Non-Newtonian. Fluid Mech. 252, 48-56, (2018) (PDF)


11. Mohammadigoushki, H., and Muller, S. J.*, "Inertio-Elastic instability in Taylor-Couette flow of a model wormlike micellar fluid." J. Rheol. 61,683 (2017) (PDF)

10. Hwang M., Mohammadigoushki, H., and Muller, S. J.*, "Flow of viscoelastic fluids through a sharp microfluidic bend: Role of the wormlike micelles structure." Phys. Rev. Fluids. 2, 043303 (2017) (PDF)

Before Joining FAMU-FSU College of Engineering

9. Mohammadigoushki, H., and Muller, S. J.,"Sedimentation of a sphere in wormlike micellar fluids." J. Rheol. 60, 587-601 (2016) (PDF)

8. Mohammadigoushki, H., and Muller, S. J., "A flow visualization and superposition rheology study of shear-banding wormlike micelle solutions" Soft Matter, 12(4):1051-61 (2016) (PDF)

7. Mohammadigoushki, H., and Feng, J. J., "Temporal evolution of microstructure and rheology of sheared two-dimensional foam" J. Non-Newton. Fluid Mech., 223 (2015), pp. 1-8 (PDF)

6. Mohammadigoushki, H., Yue, P. and Feng, J. J., "Bubble migration in two-dimensional foam sheared in a wide-gap Couette device: effects of non-Newtonian rheology". J. Rheol. 58, 1809-1827 (2014) (PDF)

5. Mohammadigoushki, H. and Feng, J. J., "Size segregation in sheared two-dimensional polydisperse foam." Langmuir 29, 1370-1378 (2013) (PDF)

4. Mohammadigoushki, H. & Feng, J. J., "Size-differentiated lateral migration of bubbles in Couette flow of two-dimensional foam". Phys. Rev. Lett. 109, 084502 (2012) (PDF)

3. Mohammadigoushki, H., Ghigliotti, G. & Feng, J. J., "Anomalous coalescence in sheared two-dimensional foam. Phys. Rev. E 85, 066301 (2012) (PDF)

2. Mostofi, N, Nazockdast, H. and Mohammadigoushki, H., "Study on morphology and viscoelastic properties of PP/PET/SEBS ternary blend and their fibers." J. Appl. Polym. Sci. 104,3780-3787 (2009) (PDF)

1. Mohammadigoushki, H., Mostofi, N. and Nazockdast. H., "Morphology And Melt Linear Viscoelastic Properties Of (PA6/PP/PS)Ternary blends." J. Elast and Plast. 41(4) (2009)