PUBLICATIONS

Refereed Journal Articles

[14] Gwon, S.^†, Ahn, E.^†, Shin, M., Kim, J.-Y., Kim, G.* (2022). Assessment of internal curing of cellulose microfibers-incorporated cement composites using nonlinear resonance spectroscopy technique, Construction and Building Materials, 352. 129004.

[13] Kim, G.^†,*, Kurtis, K.E. (2022). Early-stage assessment of drying shrinkage in Portland limestone cement concrete using nonlinear ultrasound, Construction and Building Materials, 342. 128099.

[12] Wang, X^†., Kim, G.^†, Chu, J.L.^†, Song, T., Yang, Z., Li, K.C., Lu, L.* (2022). DNZAyme based in vivo metal ion detection using high intensity focused utlrasound (HIFU), Journal of the American Chemical Society (JACS), 144 (13), 5812-5819.  (Covered in Herald, Medical Today, Yonhapnews, Donga-Science,  서울경제, UNIST News Center, etc.)

[11] Kim, G.^†, Qiong, W.^†, Chu, J.L., Smith, E.J., Oelze, M.L., Moore, J.S.*, and Li, K.C.* (2022). Ultrasound controlled mechanophore activation in hydrogels for cancer therapy. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 119 (4) e2109791119.  (Covered in SBS News, YonhapNews, UNIST News Center, Medical Today, Varitasalspha, etc.)

[10] Kim, G.^†, Cheng, S.,Hong, L., Kim, J.T., Li, K.C., and Chamorro, L.P.* (2021). On the acoustic fountain types and flow induced with focused ultrasound. Journal of Fluid Mechanics, 909, 2021.

[9] Kim, G.^†, Jang, J., Kim, K. Y., & Yun, T. S.* (2020). Characterization of orthotropic nature of cleavage planes in granitic rock. Engineering Geology, 265, 105432.

[8] Kim, G.^†, Lau, V. M., Halmes, A. J., Oelze, M. L., Moore, J. S.*, & Li, K. C.* (2019). High-intensity focused ultrasound-induced mechanochemical transduction in synthetic elastomers. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 116(21), 10214-10222. (Covered in UIUC News, Beckman Institute News, Phys.org, National Academy of Sciences, etc.)

[7] Kim, G.^†,*, Park, S., Kim, J. Y., Kurtis, K. E., Hayes, N. W., & Jacobs, L. J. (2018). Nonlinear Rayleigh surface waves to characterize microscale damage due to alkali-silica reaction (ASR) in full-scale, nuclear concrete specimens. Construction and Building Materials, 186, 1114-1118.

[6] Kim, G.^†, Loreto, G., Kim, J. Y., Kurtis, K. E., Wall, J. J., & Jacobs, L. J.* (2018). In situ nonlinear ultrasonic technique for monitoring microcracking in concrete subjected to creep and cyclic loading. Ultrasonics, 88, 64-71.

[5] Kim, G.^†, Giannini, E., Klenke, N., Kim, J. Y., Kurtis, K. E., & Jacobs, L. J.* (2017). Measuring alkali-silica reaction (ASR) microscale damage in large-scale concrete slabs using nonlinear Rayleigh surface waves. Journal of Nondestructive Evaluation, 36(2), 1-6.

[4] Kim, G.^†, Kim, J. Y., Kurtis, K. E.*, & Jacobs, L. J.  (2017). Drying shrinkage in concrete assessed by nonlinear ultrasound. Cement and Concrete Research, 92, 16-20.

[3] Kim, G.^†, Kim, J. Y., Kurtis, K. E., Jacobs, L. J.*, Le Pape, Y., & Guimaraes, M. (2016). Quantitative evaluation of carbonation in concrete using nonlinear ultrasound. Materials and Structures, 49(1-2), 399-409. Outstanding papers for 2015 (Covered in RILEM News, Georgia Tech News).

[2] Kim, G.^†, In, C. W., Kim, J. Y., Kurtis, K. E., & Jacobs, L. J.* (2014). Air-coupled detection of nonlinear Rayleigh surface waves in concrete—Application to microcracking detection. NDT & E International, 67, 64-70.

[1] Won, J. H.^†, Kim, M. K.*, Kim, G., & Cho, S. H. (2014). Blast-induced dynamic response on the interface of a multilayered pipeline. Structure and Infrastructure Engineering, 10(1), 80-92.

Refereed Journal Articles (Under review & In preparation)

[15] S. Sim^†, J.H. Rhee, J.-E. Oh, and G. Kim*. “Assessment of role of Ground-Granulated Blast Furnace Slag (GGBFS) and fly ash in mitigating thermal damage of concrete using nonlinear resonance techniques,” Cement and Concrete Composites, 2022.

[16] J.H. Rhee^†, S. Gwon, S. Sim, and G. Kim*. “Assessment the effect of the cellulose microfibers on cement composites drying shrinkage using a nonlinear resonance techniques,” Construction & Building Materials, 2022.

[17] S. Park^†, J.H. Rhee, S. Pyo*, and G. Kim*. “Study on determining the setting time of hybrid alkaline cement composite (HACC) using ultrasound,” Cement and Concrete Composites, 2022.

[18] S. Park^†, H.M. Seungy, M. Dahal, J.H. Rhee, S. Pyo, and G. Kim*. “On the detection of defects in ultra-high performance concrete (UHPC) using ultrasonic guided-waves,” Construction & Building Materials, 2022.

[19] J.H. Rhee^†, H.D. Nguyen, G. Oh, M.-K. Kim, Y.M. Lim*, and G. Kim*. “Assessment of multi-type damage in steel beam using dynamic responses trained by machine learning algorithms,” 2022.

[20] S. Sim^†, J.H. Rhee, and G. Kim*. “The effect of recurring on thermally damaged cement composites evaluated by nonlinear impact resonance acoustic spectroscopy technique,” 2022.

[21] J.H. Rhee^†, S. Gwon, S. Sim, and G. Kim*. “On the study of natural fibers for mitigating thermally-induced damage in concrete,” 2022.

[22] G. Kim^†,*,  E. Ahn, and J.-Y. Kim. “High accuracy measurements of acoustic nonlinearity parameter: role of environmental conditions in classical nonlinear behavior of concrete,” 2022.

[23] S, Beak^†, B.D. Lee, J.H. Rhee, and G. Kim*. “A precise measurement of material nonlinearity in solid materials,” 2022.

[24] S. Cheng^†, G. Kim, J.L. Chu, Q. Wu, L. Hong, K.C. Li, and L.P. Chamorro*. “On the acoustic beam forming through bio-mimicking materials,” 2023.

[25] J.L. Chu^†, G. Kim, E.J. Roy, K. Li*. “Spatiotemporal control of neural stem cells activation for the release of TNF-alpha and IL15 by high-intensity focused ultrasound,” 2023.

[26] G. Kim^†, J.-Y. Kim, K.E. Kurtis, and L.J. Jacobs*. “Review of second harmonic generation methods for evaluation of material state in concrete,” 2023.

^†: First author, *: Corresponding author

Patents (United States)

[1] U. S. Patent: “Mechanochemical Dynamic Therapy for Focal Cancer Treatment” (Provisional (63/259,239), October 2021).