top of page

2022

[27] J. M. Kim*, "Rheological characteristics of the theta-shaped polymer under shear flow", Korea-Austrailia Rheology Journal, 10.1007/s13367-022-00044-9 (2022).

2021

[26] J. H. Jeong, T. Y. Ha, S. Cho, E. J. Roh, J. M. Kim, and C. Baig*, "Melt rheology of short-chain branched ring polymers in shear flow", Macromolecules, 54, 10350 (2021).

[25] J. Kim†, J. M. Kim†, and C. Baig*, "Intrinsic structure and dynamics of monolayer ring polymer melts", Soft Matter 17, 10703 (2021).

[24] J. M. Kim*, "Influence of chain stiffness on semiflexible polymer melts in two dimensions via molecular dynamics simulation",  Molecular Simulation, 47(15), 1290 (2021).

[23]  김준모, "유동하 고분자 용융체의 다중스케일 전산모사 기법과 응용", 공업화학전망, 24권 (3호), 28, (2021).

[22] J. Kim†, J. M. Kim†, and C. Baig*, "Intrinsic chain stiffness in flexible linear polymers under extreme confinement", Polymer, 213, 123308 (2021).

2020

[21] S. H. Jeong†, S. Cho†, E. J. Roh†, T. Y. Ha†, J. M. Kim†, and C. Baig*, "Intrinsic surface characteristics and dynamic mechanisms of ring polymer solutions and melts under shear flow", Macromolecules, 53, 10051 (2020).

[20] S. Cho†, J.M. Kim† and C. Baig, “Scaling Behaviors of Melt Dynamics and Rheology of Linear Polymer in Shear Flow”, Macromolecules 53, 3030 (2020).

2019

[19] E. J. Roh, J.M. Kim, and C. Baig, “Molecular dynamics study on the structure and relaxation of short-chain branched ring polymer melts”, Polymer, 175, 107 (2019).

2018

[18] S.H. Jeong†, J.M. Kim† and C. Baig, “Rheological behaviors of H-shaped polymers incorporated with short branches under shear and elongational flows via FENE-Rouse model”, J. Rheol., 62, 1115 (2018). [† Equal Contribution]  

[17] S. Jeong, S. Cho, J.M. Kim, and C. Baig, "Interfacial molecular structure and dynamics of confined ring polymer melts under shear flow”, Macromolecules, 51, 4670 (2018).

2017 

[16] S. Jeong†, J.M. Kim†, and C. Baig, “Molecular characteristics of stress overshoot for polymer melts under start-up shear flow”, J. Chem. Phys. 147, 234901 (2017). [† Equal Contribution]  

[15] S. Jeong†, J.M. Kim†, S. Cho, and C. Baig, “Effect of short-chain branching on interfacial polymer structure and dynamics under shear flow”, Soft Matter 13, 8644 (2017). [† Equal Contribution] [Excellent Paper Award from the Korean Society of Rheology]

[14] S. Cho, S. Jeong, J.M. Kim,* and C. Baig,* "Molecular dynamics for linear polymer melts in bulk and confined systems under shear flow", Sci. Rep. 7, 9004 (2017). [* Corresponding Author]

[13] S.H. Jeong†, J.M. Kim† and C. Baig, "Rheological influence of short-chain branching for polymeric materials under shear with variable branch density and branching architecture", Macromolecules 50, 4491-4500 (2017). [† Equal Contribution]

[12] S. Jeong†, J.M. Kim† and C. Baig, "Effect of chain orientation and stretch on the stress overshoot of entangled polymeric materials under start-up shear", Macromolecules 50, 3424-3429 (2017). [† Equal Contribution] )

[11] S. Jeong, S. Cho, J.M. Kim and C. Baig, “Molecular mechanisms of interfacial slip for polymer melts under shear flow”, J. Rheol. 61, 253-264 (2017). [UNIST Research Highlights (http://news.unist.ac.kr/kor/20170313-01/) & 2017 Society of Plastic Engineers (SPE) Korea Award & Top 10 Hottest J. Rheol. Articles (2018)]

2016

[10] S.H. Jeong, J.M. Kim, J. Yoon, C. Tzoumanekas, M. Kröger and C. Baig, "Influence of molecular architecture on entanglement network: topological analysis of linear, long- and short-chain branched polyethylene melts via Monte Carlo simulation", Soft Matter 12, 3770-3786 (2016).

[9] J.M. Kim and C. Baig, "Communication: Role of short chain branching in polymer structure and dynamics", J. Chem. Phys. 144, 081101 (2016). [2016 Editor's Choice]

[8] J.M. Kim and C. Baig, "Precise Analysis of Polymer Rotational Dynamics", Sci. Rep. 6, 19127 (2016).

2014

[7] J.M. Kim, R. Locker, and G.C. Rutledge, “Plastic deformation of semicrystalline polyethylene under extension, compression, and shear using molecular dynamics simulation”, Macromolecules, 47, 2515-2528 (2014). [Monthly Cover Art] ).

2011

[6] J.M. Kim, P.S. Stephanou, B.J. Edwards, and B. Khomami, “A mean-field anisotropic diffusion model for unentangled polymeric liquids and semi-dilute solutions: Model development and comparison with experimental and simulation data”, J. Non-Newtonian Fluid Mech., 166, 593-606 (2011).

2010 

[5] J.M. Kim, B.J. Edwards, D.J. Keffer, and B. Khomami, “Dynamics of individual molecules of linear polyethylene liquids under shear: Atomistic simulation and comparison with a free-draining bead-rod chain”, J. Rheol., 54, 283-310 (2010). 

2009

[4] J.M. Kim, B.J. Edwards, D.J. Keffer, and B. Khomami, “Single-chain dynamics of linear   polyethylene liquids under shear flow”, Phys. Lett. A, 373, 769–772 (2009).

2008

[3] J.M. Kim, D.J. Keffer, B.J. Edwards, and C. Baig, "Visualization of Conformational Changes of Linear Alkanes & Short Polyethylenes under Shear and Elongational Flows", J. Mol. Graph. Mod., 26(7), 1046-1056 (2008). 

[2] J.M. Kim, D.J. Keffer, M. Kröger, and B.J. Edwards, "Rheological and Entanglement Characteristics of Linear Chain Polyethylene Liquids in Planar Couette and Planar Elongational Flows", J. Non-Newtonian Fluid Mech., 152(1-3), 168-183 (2008). 

[1] B. Jiang, J.M. Kim, D.J. Keffer, and B.J. Edwards, “Comparison of perfluoropolyethers and n-alkanes under shear via nonequilibrium molecular dynamics simulation”, Mol. Sim. 34(2), 231-242 (2008). 

bottom of page