Lee Young Ki  사진
Lee Young Ki
Assistant Professor
Rheology and Transport phenomena
Engineering Hall 1 Building #108



2008 Sungkyunkwan University, School of Chemical Engineering, Korea (B.S.)

2015 Seoul National University, School of Chemical and Biological Engineering, Korea (Ph.D.)



2010 Kyoto University, Japan (Visiting Researcher)

2011-2012 Cornell University, USA (Visiting Researcher)

2015-2018 University of Pennsylvania, USA (Postdoctoral Researcher)

2019-2020 Seoul National University ICP (Postdoctoral Researcher)

2021-Present Hankyong National University, School of Food Biotechnology and Chemical Engineering (Assistant Professor)


Research Interests

Rheology of Complex fluids and Applications



J. H. Jeong, Y. K. Lee, K. H. Ahn, Drying mechanism of monodisperse colloidal film: Evolution of normal stress and its correlation with microstructure, AIChE Journal e17400 (2021).

Y. K. Lee, K. Hyun and K. H. Ahn, The first normal stress difference of non-Brownian hard-sphere suspensions in the oscillatory shear flow near liquid and crystal coexistence region, Soft Matter 16, 9864-9875 (2020).

Y. K. Lee, X. Li, P. Perdikaris, J. C. Crocker, C. Reina and T. Sinno, Hydrodynamic and Frictional Modulation of Deformations in Switchable Colloidal Crystallites, Proc. Natl. Acad. Sci. U.S.A 117(23), 12700-12706 (2020).

Y. K. Lee and K. H. Ahn, Particle dynamics at fluid interfaces studied by the color gradient lattice Boltzmann method coupled with the smoothed profile method, Phys. Rev. E 101, 053302 (2020).

Y. K. Lee, C. Porter, S. L. Diamond, J. C. Crocker and T. Sinno, Deposition of sticky spheres in channel flow: Modeling of surface coverage evolution requires accurate sphere-sphere collision hydrodynamics, J. Colloid Interface Sci. 530, 383393 (2018).

Y. K. Lee, K. H. Ahn and S. J. Lee, Time-dependent viscoelastic properties of Oldroyd-B fluid studied by advection-diffusion lattice Boltzmann method, Korea-Aust. Rheol. J. 29(2), 137-146 (2017).

Y. K. Lee and K. H. Ahn, A novel lattice Boltzmann method for the dynamics of rigid particles suspended in a viscoelastic medium, J. Non-Newton. Fluid Mech. 244, 7584 (20