Publications
Articles featured on journal covers/frontispiece
See also Google Scholar for links to articles and citations
International Journals
-2024
<66> J.I. Park, S. Hong, D. Jin, W.J. Lee, K.J. Kim, Y.K. Lee, S.W. Lee, K.H. Ahn, J. Hwang, J. M. Kim, "Microfluidic Shape Analysis of Non-spherical Graphite for Li-Ion Batteries via Viscoelastic Particle Focusing", Small, 20, 2404456 (2024) (2024) (Selected as a Frontispiece).
<65> M. Im, J. Jang, J.M. Kim, J. Nam, "Pattern Recognition for Capillary-Driven Extensional Flows", I&ECR, 63, 15524 (2024).
<64> W.J. Lee, N. Park, J.I. Park, J. Nam, K.H. Ahn, J.M. Kim, "Extensional rheology of anode slurries for li-ion batteries containing natural and synthetic graphite", J Colloid Interace Sci., 663, 508-517 (2024).
-2023-
<63> Y. Jung, D. Jin, T.S. Shim, S.S. Lee, and J.M. Kim, "Confinement effect on lateral particle migration in deoxyribonucleic acid solution", Phys. Fluids, 35, 122014 (2023) (Selected as Editor's Pick).
<62> S. Jeong, J.Y. Park, J.M. Kim, and Y. Kim, "Photothermally enhanced hollow gold nanopigment for water evaporation and sterilization achieved via a photothermal effect", Build. Environ., 229, 109970 (2023).
-2022-
<61> I.-H. Jang, W. J. Lee, D. Jin, and J. M. Kim, "Effects of Flow History on Extensional Rheological Properties of Wormlike Micelle Solution", RSC Adv., 12, 32903 (2022).
<60> Y.H. Kim, T.S. Shim, and J.M. Kim, "Lateral particle migration in shear-thinning colloidal dispersion", KARJ, 34, 327 (2022).
<59> Y. Jung, T.S. Shim, J.M. Kim, “Facile microfluidic method for measuring the relaxation time of dilute polymer solution based on viscoelastic particle focusing”, KJChE, 39, 2318 (2022).
<58> Y.S. Lim, J.S. Kim, J.H. Choi, J.M .Kim, T.S. Shim “Solvatochromic discrimination of alcoholic solvents by structural colors of polydopamine nanoparticle thin films”, Colloid Interf. Sci. Commun., 48, 100624 (2022).
12022, 14, 1212 (2021).
<57> A.T. Ngoc Do, Y. Ha, H.-J. Kang, J.M. Kim, and J.-H. Kwon, "Equilibrium leaching of selected ultraviolet stabilizers from plastic products", J. Hazard. Mater. , 427, 128144 (2022).
-2021-
<56> B. Kim, S. S. Lee, T. H. Yoo & J. M. Kim, “Viscoelastic particle focusing in human biofluids”, Electrophoresis, 42, 2238 (2021)
<55> B. S. Hwang, J. S. kim, J. M. Kim & T. S. Shim “Thermogelling Behaviors of Aqueous Poly(N-Isopropylacrylamide-co-2-Hydroxyethyl Methacrylate) Microgel-Silica Nanoparticle Composite Dispersions”, Materials, 14, 1212 (2021).
<54> S. O. Hong, K. S. Park, D. Y. Kim, S. S. Lee, C. S. Lee & J. M. Kim, “Gear-shaped micromixer for synthesis of silica particles utilizing intertio-elastic flow instability”, Lab Chip, 21,513-520 (2021) (Featured on the Inside Cover).
-2020-
<53> S. J. Kwon, Y. J. Choi, J. M. Kim & P. C. Lee “Complete Genome Sequence of the Cartenoid-Producing Strain Gordonia ajoucoccus A2”, MRA, 9(37), e00662-20 (2020).
<52> B. Kim, H. Lee, S. J. Lee, J. H. Kwon & J. M. Kim, “Image cytometry of irregular microplastic particles in a cross-slot microchannel utilizing viscoelastic focusing”, KJChE, 37(12), 2136-2142 (2020).
<51> M. Kim, K. Y. Choi, J. M. Kim & T. S. Shim, “Stepwise Evolution of Crease Patterns on Stimuli-Responsive Hydrogels for the Production of Long-Range Ordered Structures”, Adv. Mater. Interfaces, 7(24), 2001551 (2020)(Featured on the Inside Cover).
-2019-
<50> Y. Park, S. O. Hong, P. C. Lee & J. M. Kim, “Vortex dynamics at the junction of Y-shaped microchannels in dilute polymer solutions”, KARJ, 31(4), 189-194 (2019).
<49> H. K. Jang, S. O. Hong, S. B. Lee, J. M. Kim & W. R. Hwang, “Viscosity measurement of non-Newtonian fluids in pressure-driven flows of general geometries based on energy dissipation rate”, J. Non-Newton. Fluid Mech., 274, 104204 (2019).
<48> M. Cho, S. O. Hong, S. H. Lee, K. Hyun & J. M. Kim, “Effects of Ionic Strength on Lateral Particle Migration in Shear-Thinning Xanthan Gum Solutions”, Micromachines, 10(8), 535 (2019).
<47> B. Kim, S. S. Lee, T. H. Yoo, S. Kim, S. Y. Kim, S.-H. Choi & J. M. Kim, "Normal stress difference-driven particle focusing in nanoparticle collidal dispersion", Sci. Adv., 5(6), eaav4819, DOI: 10.1126/sciadv.aav4819 (2019).
<46> D. Y. Kim & J. M. Kim, “Vortex Generation by Viscoelastic Sheath Flow in Flow-focusing Microchannel”, KJChE, 36(6), 837-842 (2019).
-2018-
<45> H. Lee, D. E. Byub, J. M. Kim & J. H. Kwon, "Desorption of Hydrophobic Organic Chemicals from Fragment-Type Microplastics", OSJ, 53(4), 631-639 (2018).
<44> H. Lee, D. E. Byun, J. M. Kim & J. H. Kwon, "Desorption modeling of hydrophobic organic chemicals from plastic sheets using experimentally determined diffusion coefficients in plastics", MPB, 126, 312-317 (2018).
-2017-
<43> H. Lee, G. Ro, J. M. Kim & Y. Kim, "Discrete-dipole approximation for the optical properties with morphological changes of silver nanoprism and nanosphere via galvanic reaction", Mater. Lett., 209, 138-141 (2017).
<42> T. S. Shim & J. M. Kim, "Soft-, shape changing materials toward physicochemically powered actuators", KJChE, 34(9), 2355-2365 (2017).
<41> J. Kim, J. Y. Kim, Y. Kim, S. J. Lee & J. M. Kim, "Shape measurement of ellipsoidal particles in a cross-slot microchannel utilizing viscoelastic particle focusing", Anal. Chem., 89(17), 8862-8666 (2017).
<40> D. Y. Kim, T. S. Shim & J. M. Kim, "Elastic effects of dilute polymer solution on bubble generation in a microfluidic flow-focusing channel", KARJ, 29(2), 147-153 (2017).
<39> J. Kim, S. O. Hong, T. S. Shim & J. M. Kim, "Inertio-elastic flow instabilities in a 90° bent microchannel", Soft Matter, 13(34), 5656-5664 (2017).
-2016-
<38> B. Kim & J. M. Kim, "Elasto-inertial particle focusing under the viscoelastic flow of DNA solution in a square channel", Biomicrofluidics, 10(2), 024111 (2016).
<37> S. O. Hong, J. J. Cooper-White & J. M. Kim, "Inertio-elastic mixing in a straight microchannel with side wells", Appl. Phys. Lett., 108(1), 014103 (2016).
<36> Y. B. Bae, H. K. Jang, T. H. Shin, G. Phukan, T. T. Tran, G. Lee, W. R. Hwang & J. M. Kim, "Microfluidic assessment of mechanical cell damage by extensional stress", Lab Chip, 16(1), 96-103 (2016). Featured on the Lab Chip outside back cover. Youtube movie.
-2015-
<35> J. M. Kim, "Kinematic analyses of a cross-slot microchannel applicable to cell deformability measurement under inertial or viscoelastic flow", KJChE, 32(12), 2406-2411 (2015).
<34> S. W. Ahn, S. S. Lee, S. J. Lee & J. M. Kim, "Microfluidic particle separator utilizing sheathless elasto-inertial focusing", Chem. Eng. Sci., 126, 237-243 (2015).
<33> J.B. Yoo, K. Kang, T. T. Tran, H. Park, W. R. Hwang, J. M. Kim & S.G. Im, "PDMS-based turbulent microfluidic mixer", Lab Chip, 15(7), 1727-1735 (2015) (*co-corresponding).
-2014-
<32> S. Cha, K. Kang, J. B. You, S. G. Im, Y. Kim & J. M. Kim, "Hoop stress-assisted three-dimensional particle focusing under viscoelastic flow", Rheol. Acta, 53(12), 927-933 (2014) (Invited paper).
<31> S. Choi, J. M. Kim, K. H. Ahn & S. J. Lee, "High‐throughput DNA separation in nanofilter arrays", Electrophoresis, 35(15), 2068-2077 (2014) (Front cover article)(*co-corresponding).
-2013-
<30> K. Kang, S. S. Lee, K. Hyun, S. J. Lee & J. M. Kim, "DNA-based highly tunable particle focuser", Nat. Commun., 4, 2567 doi:10.1038/ncomms3567 (2013).
-2012-
<29> S. Cha, T. Shin, S. S. Lee, W. Shim, G. Lee, S. J. Lee, Y. Kim & J. M. Kim, "Cell stretching measurement utilizing viscoelastic particle focusing", Anal. Chem., 84(23), 10471-10477 (2012).
<28> S. Yang, S. S. Lee, S. W. Ahn, K. Kang, W. Shim, G. Lee, K. Hyun & J. M. Kim, "Deformability-selective particle entrainment and separation in a rectangular microchannel using medium viscoelasticity", Soft Matter, 8(18), 5011-5019 (2012).
<27> J. Y. Kim, S. W. Ahn, S. S. Lee & J. M. Kim, "Lateral migration and focusing of colloidal particles and DNA molecules under viscoelastic flow", Lab Chip, 12(16), 2807-2814 (2012). Featured in the Lab Chip front cover and also highlighted in the Lab Chip blog.
-2011-
<26> A. R. Kang, S. W. Ahn, S. J. Lee, B. Lee, S. S. Lee & J. M. Kim, “Medium viscoelastic effect on particle segregation in concentrated suspensions under rectangular microchannel flows”, KARJ, 23(4), 247-254 (2011).
<25> S. Yang, S. W. Ahn, A. R. Kang, D. Lee, S. S. Lee, J. M. Kim, K. H. Ahn & S. J. Lee, “ Effect of local kinematic history on the dynamic self-assembly of droplets in micro-expansion channels”, KARJ, 23(3), 119 (2011) (*co-corresponding).
<24> J. S. Lee & J. M. Kim, “Effect of stiffness on tumbling dynamics of short worm-like polymers under mixed flows”, Macromol. Res., 19(3), 273-279 (2011).
<23> S. Yang, J. Y. Kim, S. J. Lee, S. S. Lee and J. M. Kim, “Sheathless elasto-inertial particle focusing and continuous separation in a straight rectangular microchannel”, Lab Chip, 11(2), 266-273 (2011).
-2010-
<22> J. S. Lee & J. M. Kim, “Effect of aspect ratio and fluid elasticity on chain orientation in isothermal film casting process”, KJChE, 27, 409-415 (2010).
<21> C. Chung, D. Choi, J. M. Kim, K. H. Ahn & S. J. Lee, “Numerical and experimental studies on the viscous folding in diverging microchannels”, Microfluid. Nanofluid., 8(6), 767-776 (2010).
-2009-
<20> J. S. Lee & J. M. Kim, “Tumbling dynamics of rod-like and semi-flexible polymers in simple shear and mixed flows”, Macromol. Res., 17(10), 807-812 (2009).
<19> C. Chung, J. M. Kim, K. H. Ahn & S. J. Lee, “Numerical study on the effect of viscoelasticity on pressure drop and film thickness for a droplet flow in a confined microchannel", KARJ, 21(1), 59-69 (2009).
<18> C. Chung, J. M. Kim, M. A. Hulsen, K. H. Ahn & S. J. Lee, “Effect of viscoelasticity on drop dynamics in 5: 1: 5 contraction/expansion microchannel flow”, Chem. Eng. Sci., 64(22), 4515-4524 (2009).
<17> J. M. Kim, K. H. Ahn & S. J. Lee, “Effect of viscoelasticity on two-dimensional laminar vortex shedding in flow past a rotating cylinder”, KARJ, 21(1), 27-37 (2009).
<16> S. W. Choi, D. M. Shin, J. S. Lee, J. M. Kim, H. W. Jung & J. C. Hyun, “Transient responses of two-dimensional viscoelastic film casting processes to sinusoidal disturbances”, KJChE, 26(1), 26-31 (2009).
-2008-
<15> C. Chung, M. A. Hulsen, J. M. Kim, K. H. Ahn & S. J. Lee, “Numerical study on the effect of viscoelasticity on drop deformation in simple shear and 5: 1: 5 planar contraction/expansion microchannel”, J. Non-Newton. Fluid Mech., 155(1-2), 80-93 (2008).
<14> D. Dendukuri, P. Panda, R. Haghgooie, J. M. Kim, T. A. Hatton & P. S. Doyle, “Modeling of oxygen-inhibited free radical photopolymerization in a PDMS microfluidic device”, Macromolecules, 41(22), 8547-8556 (2008).
<13> J. M. Kim, S. G. Lee & C. Kim, “Numerical simulations of particle migration in suspension flows: Frame-invariant formulation of curvature-induced migration”, J. Non-Newton. Fluid Mech., 150(2-3), 162-176 (2008).
-2007-
<12> J. M. Kim & P. S. Doyle, “Brownian dynamics simulations of a DNA molecule colliding with a small cylindrical post”, Macromolecules, 40(25), 9151-9163(2007).
<11> D. M. Shin, J. S. Lee, J. M. Kim, H. W. Jung & J. C. Hyun, “Transient and steady-state solutions of 2D viscoelastic nonisothermal simulation model of film casting process via finite element method”, J. Rheol., 51(3), 393-40 (2007).
<10> S. Song, J. M. Kim, K. H. Ahn, S. J. Lee & J. K. Yeo, “Orientation and deformation of FENE dumbbells in confined microchannel and contraction flow geometry”, KARJ, 19(3), 147-156 (2007).
<9> J. M. Kim & P. S. Doyle, “Design and numerical simulation of a DNA electrophoretic stretching device”, Lab Chip, 7(2), 213-225 (2007).
-2006-
<8> J. M. Kim & P. S. Doyle, “A Brownian dynamics-finite element method for simulating DNA electrophoresis in nonhomogeneous electric fields”, J. Chem. Phys., 125(7), 074906 (2006).
-2005-
<7>. J. M. Kim, J. S. Lee, D. M. Shin, H. W. Jung & J. C. Hyun, “Transient solutions of the dynamics of film casting process using a 2-D viscoelastic model”, J. Non-Newton. Fluid Mech., 132(1-3), 53-60 (2005).
<6> J. M. Kim, C. Kim, J. H. Kim, C. Chung, K. H. Ahn & S. J. Lee, "High-resolution finite element simulation of 4: 1 planar contraction flow of viscoelastic fluid", J. Non-Newton. Fluid Mech., 129(1), 23-37 (2005).
<5> J. M. Kim, C. Kim, C. Chung, K. H. Ahn & S. J. Lee, "Negative wake generation of FENE-CR fluids in uniform and Poiseuille flows past a cylinder", Rheol. Acta, 44(6), 600-613 (2005).
<4> J. M. Kim, C. Chung, K. H. Ahn & S. J. Lee, “Time-weissenberg number superposition in 4: 1 planar contraction flow of a viscoelastic fluid”, Nihon Reoroji Gakk, 33(4), 191-197 (2005).
-2004-
<3> J. M. Kim, C. Kim, K. H. Ahn & S. J. Lee, "An efficient iterative solver and high-resolution computations of the Oldroyd-B fluid flow past a confined cylinder", J. Non-Newton. Fluid Mech., 123(2-3), 161-173 (2004).
<2> J. M. Kim, C. Kim, C. Chung, K. H. Ahn & S. J. Lee, “Vortex behavior in the inertial flow of viscoelastic fluids past a confined cylinder”, KARJ, 16(3), 117-128 (2004).
-2001-
<1> J. M. Kim, K. H. Ahn, S. J. Lee & S. J. Lee, "Numerical simulation of moving free surface problems in polymer processing using volume‐of‐fluid method", Polym. Eng. Sci., 41(5), 858-866 (2001).
Domestic Journals
-1998-
1. J. M. Kim & S. J. Lee, “A Study on the Optimization of Packing Step of Injection Molding Process”, Korean J. Rheol, 10, 113-120 (1998).
Patents
6 issued domestic patents