Chunggi Baig, Ph.D.
Affiliations: | 2005 | The University of Tennessee, Knoxville, TN, United States |
Area:
Chemical EngineeringGoogle:
"Chunggi Baig"Parents
Sign in to add mentorHank D. Cochran | grad student | 2005 | University of Tennessee | |
(Studies in rheology: Molecular simulation and theory.) |
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Publications
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Kim J, Kim JM, Baig C. (2021) Intrinsic structure and dynamics of monolayer ring polymer melts. Soft Matter |
Jeong SH, Cho S, Ha TY, et al. (2020) Structural and Dynamical Characteristics of Short-Chain Branched Ring Polymer Melts at Interface under Shear Flow. Polymers. 12 |
Cho S, Kim JM, Baig C. (2020) Scaling Characteristics of Rotational Dynamics and Rheology of Linear Polymer Melts in Shear Flow Macromolecules. 53: 3030-3041 |
Jeong SH, Cho S, Roh EJ, et al. (2020) Intrinsic Surface Characteristics and Dynamic Mechanisms of Ring Polymers in Solution and Melt under Shear Flow Macromolecules. 53: 10051-10060 |
Jeong S, Baig C. (2020) Molecular process of stress relaxation for sheared polymer melts Polymer. 202: 122683 |
Roh EJ, Baig C. (2019) Nonequilibrium Monte Carlo simulations of entangled polymer melts under steady shear flow. Soft Matter |
Park J, Lee Y, Barbee MH, et al. (2019) A Hierarchical Nanoparticle-in-Micropore Architecture for Enhanced Mechanosensitivity and Stretchability in Mechanochromic Electronic Skins. Advanced Materials (Deerfield Beach, Fla.). e1808148 |
Roh EJ, Kim JM, Baig C. (2019) Molecular dynamics study on the structure and relaxation of short-chain branched ring polymer melts Polymer. 175: 107-117 |
Ha M, Lim S, Cho S, et al. (2018) Skin-Inspired Hierarchical Polymer Architectures with Gradient Stiffness for Spacer-Free, Ultrathin, and Highly-Sensitive Triboelectric Sensors. Acs Nano |
Jeong SH, Kim JM, Baig C. (2018) Rheological behaviors of H-shaped polymers incorporated with short branches under shear and elongational flows via FENE-Rouse model Journal of Rheology. 62: 1115-1124 |