Selected Publications
Lim. D.D.; Ibarra. A.I.; Lee. J.; Jung. J.; Choi. W.; Gu. G. X*; " A tunable metamaterial microwave absorber inspired by chameleon’s color-changing mechanism", Science Advances, 2024 (Accepted)
Lim. D.D.‡; Lee. J.W.‡; Park. J.W.; Lee. J.M.; Noh. D.W.; Park. S.J.; Grace. X. Gu.*; Choi. W.*; "Multifunctional seamless meta-sandwich composite as lightweight, load-bearing, and broadband-electromagnetic-wave-absorbing structure", Additive Manufacturing, 2024 [Link]
Lim, D. D., Lee, S., Lee, J. H., Choi, W., & Gu, G. Mechanical metamaterials as broadband electromagnetic wave absorbers: Investigating relationships between geometrical parameters and electromagnetic response. Materials Horizons, 2024 [Link]
Lee. J.W.‡, Lim. D. D.‡, Park. J.W., Lee. J.M., Noh. D.W., Gu, G. X.*, Choi. W.*; Multifunctionality of additively manufactured Kelvin foam for electromagnetic wave absorption and load bearing, Small, 2023 [Link]
Lim. D. D.‡; Park. J.W.‡; Lee. J.M.; Noh. D.W.; Choi. J.H.; Choi. W.*; "Broadband Mechanical Metamaterial Absorber", Additive Manufacturing, 2022 [Link]
Lim. D. D.‡; Lee. J.M.‡; Park J.W.; Choi. W.*; "High-resolution and electrically conductive three-dimensional printing of carbon nanotube-based polymer composites enabled by solution intercalation", Carbon, 2022 [Link]
2024
[13] Lim. D.D.‡; Lee. J.W.‡; Park. J.W.; Lee. J.M.; Noh. D.W.; Park. S.J.; Grace. X. Gu.*; Choi. W.*; "Multifunctional seamless meta-sandwich composite as lightweight, load-bearing, and broadband-electromagnetic-wave-absorbing structure", Additive Manufacturing, 2024 [Link]
[12] Lee, S. Sheikh, HM. Lim, D. D., Gu, G. X., & Marcus, P. S.; "Bayesian-Optimized Riblet Surface Design for Turbulent Drag Reduction via Design-by-Morphing with Large Eddy Simulation". Journal of Mechanical Design, 2024 [Link]
[11] Wei, Z., Zhang, Z., Lim, D. D., Rey, J., Jones, M., & Gu, G. X.; "Influence of bioinspired riblet topographies on the mitigation of flow-induced noise in towed sonar arrays". Extreme Mechanics Letters, 2024 [Link]
[10] Lim, D. D., Lee, S., Lee, J. H., Choi, W., & Gu, G. "Mechanical metamaterials as broadband electromagnetic wave absorbers: Investigating relationships between geometrical parameters and electromagnetic response". Materials Horizons, 2024 [Link]
[9] Jin, Z., Lim, D. D., Zhao, X., Mamunuru, M., Roham, S., & Gu, G. X.; "Machine learning enabled optimization of showerhead design for semiconductor deposition process". Journal of Intelligent Manufacturing, 2024 [Link]
2023
[8] Lee. J.W.‡, Lim. D. D.‡, Park. J.W., Lee. J.M., Noh. D.W., Gu, G. X.*, Choi. W.*; Multifunctionality of additively manufactured Kelvin foam for electromagnetic wave absorption and load bearing, Small, 2023 [Link]
[7] Song, C., Lee, J., Lim, D. D., & Choi, W. "Rationally Tunable Phase Change Material Thermal Properties Enabled by Three-Dimensionally Printed Structural Materials and Carbon-Based Functional Additives". International Journal of Energy Research, 2023 [Link]
2022
[6] Lee, S., Lim. D. D., Pegg, E., & Gu, G. X.; "The origin of high-velocity impact response and damage mechanisms for bioinspired composites. "Cell Reports Physical Science, 2022, [Link]
[5] Lim. D. D.‡; Park. J.W.‡; Lee. J.M.; Noh. D.W.; Choi. J.H.; Choi. W.*; "Broadband Mechanical Metamaterial Absorber", Additive Manufacturing, 2022 [Link]
[4] Lim. D. D.‡; Lee. J.M.‡; Park J.W.; Choi. W.*; "High-resolution and electrically conductive three-dimensional printing of carbon nanotube-based polymer composites enabled by solution intercalation", Carbon, 2022 [Link]
-2021
[3] Lee. S.J.‡; Lee. H.M.‡; Lim. D. D.; Song C.H.; Choi. W.*; "Temperature-responsive ultrasonic-wave engineering using thermoresponsive polymers", Advanced Functional Materials, 2021 [Link]
[2] Lim, D., Georgiou, T., Bhardwaj, A., O’Connell, G. D., & Agogino, A. M. "Customization of a 3D printed prosthetic finger using parametric modeling". IDETC-CIE, 2018 [Link]
[1] Schoop, E., Nguyen, M., Lim, D., Savage, V., Follmer, S., & Hartmann, B. "Drill Sergeant: Supporting physical construction projects through an ecosystem of augmented tools". CHI, 2016 [Link]