Publications of Eunsoo Kang

Journal Article (7)

Journal Article
Noual, A.; Kang, E.; Maji, T.; Gkikas, M.; Djafari-Rouhani, B.; Fytas, G.: Optomechanic Coupling in Ag Polymer Nanocomposite Films. The Journal of Physical Chemistry C 125 (27), pp. 14854 - 14864 (2021)
Journal Article
Navarro-Urrios, D.; Kang, E.; Xiao, P.; Colombano, M. F.; Arregui, G. R.; Graczykowski, B.; Capuj, N. E.; Sledzinska, M.; Sotomayor Torres, C. M.; Fytas, G.: Optomechanical crystals for spatial sensing of submicron sized particles. Scientific Reports 11 (1), 7829 (2021)
Journal Article
Wang, J.; Kang, E.; Sultan, U.; Merle, B.; Inayat, A.; Graczykowski, B.; Fytas, G.; Vogel, N.: Influence of Surfactant-Mediated Interparticle Contacts on the Mechanical Stability of Supraparticles. The Journal of Physical Chemistry C 125 (42), pp. 23445 - 23456 (2021)
Journal Article
Babacic, V.; Varghese, J.; Coy, E.; Kang, E.; Pochylski, M.; Gapinski, J.; Fytas, G.; Graczykowski, B.: Mechanical reinforcement of polymer colloidal crystals by supercritical fluids. Journal of Colloid and Interface Science 579, pp. 786 - 793 (2020)
Journal Article
Kang, E.; Graczykowski, B.; Jonas, U.; Christie, D.; Gray, L. A. G.; Cangialosi, D.; Priestley, R. D.; Fytas, G.: Shell Architecture Strongly Influences the Glass Transition, Surface Mobility, and Elasticity of Polymer Core-Shell Nanoparticles. Biomacromolecules 52 (14), pp. 5399 - 5406 (2019)
Journal Article
Kang, E.; Kim, H.; Gray, L. A. G.; Christie, D.; Jonas, U.; Graczykowski, B.; Furst, E. M.; Priestley, R. D.; Fytas, G.: Ultrathin Shell Layers Dramatically Influence Polymer Nanoparticle Surface Mobility. Macromolecules 51 (21), pp. 8522 - 8529 (2018)
Journal Article
Kim, H.; Cang, Y.; Kang, E.; Graczykowski, B.; Secchi, M.; Montagna, M.; Priestley, R. D.; Furst, E. M.; Fytas, G.: Direct observation of polymer surface mobility via nanoparticle vibrations. Nature Communications 9 (1), 2918 (2018)

Thesis - PhD (1)

Thesis - PhD
Kang, E.: Controlling Hypersonic Particle Resonances through Tailored Colloidal Synthesis. Dissertation, Johannes Gutenberg-Universität, Mainz (2020)
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