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)

[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 Geology265, 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,, 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 Materials186, 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. Ultrasonics88, 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 Evaluation36(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 Research92, 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 Structures49(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 International67, 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 Engineering10(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).