PUBLICATIONS
International Journal
Submitted
[2] Han, J., Jo, H., Song, Y., Ga, D, Shin, J.H., Song, J.H., "Fused Powder Extrusion 3D Printing for Low-Cost, Simple Operation, and Wide Material Selection"
[1] Park, J.E., Jo, H., Song, J.H., "Size-adjustable, Foldable, and Stretchable Capacitor with Origami and Auxetic Structure"
2023
[7] Jo, H., Song, Y., Lee, D., Kang, Y.J., Ahn, J., Song, J.H., Lego-like Model Reconfigurable and Transparent Stretchable Strain Sensor for Wearable and Biomedical Application, Advanced Functional Materials, (IF 19.0, JCR 4% in MATERIALS SCIENCE, MULTIDISCIPLINARY) Inside Back Cover, Press release
[6] Song, Y., Jo, H., and Song, J.H., Multi-responsive 3D Structured PVDF Cube Switch for Security System Using Piezoelectric Anisotropy, ACS Applied Materials & Interfaces, (IF 9.5, JCR Rank Q1 in MATERIALS SCIENCE, MULTIDISCIPLINARY), Supplementary Journal Cover
[5] Jo, H., Bae, Y., Song, Y., Han, J., & Song, J. H. (2023). Stretchable multi-mode sensor with single and simultaneous sensing modes for human neck motion tracking. Applied Materials Today, 33, 101874. (IF 8.664, JCR Rank Q1 in MATERIALS SCIENCE, MULTIDISCIPLINARY)
[4] Hwang, B., Jo, H., Song, Y., & Song, J. H. (2023). Signal-amplified stretchable PVDF kirigami sensor via neutral axis modification. Smart Materials and Structures. (IF 4.131)
[3] Song, D. S., Song, J. H., & Ahn, S. H. (2023). Three-Dimensional Printing of Ag Nanoparticle Meshes for Antibacterial Activity. ACS Applied Nano Materials. (IF 6.140)
[2] Song, J.H., Jung, W.K. and Ahn, S.H., (2023), Improved Energy Efficiency of Laser-enhanced Nanoparticle Deposition System Analyzed with a Smart Energy Monitoring Device, International Journal of Precision Engineering and Manufacturing-Green Technology, 1-10. (IF 4.660, JCR Rank Q1 in Engineering, Mechanical)
[1] Song, J.H., Kim, Y.G., Cho, Y., Hong, S., Choi, J.Y., Kim, M.S., and Ahn, S.H., (2023), Stretchable Strain and Strain-rate Sensor using Kirigami-cut PVDF Film, Advanced Materials Technologies, 2201112 (IF 8.856, JCR Rank Q1 in Materials Science, Multidisciplinary)
2022
[3] Jo, H., Bae, Y., and Song, J.H., Stretchable Multi-mode Sensor with Yarn Structure, IEEE Sensors Proceedings
[2] Kim, Y.G., Hong, S., Hwang, B., Ahn, S.H., and Song, J.H., (2022). Improved performance of stretchable piezoelectric energy harvester based on stress rearrangement. Scientific Reports, 12(1), 19149. (IF 4.997)
[1] Kim, Y. G., Song, J. H., Hong, S., & Ahn, S. H. (2022). Piezoelectric strain sensor with high sensitivity and high stretchability based on kirigami design cutting. npj Flexible Electronics, 6(1), 1-8 (IF 12.019, Rank 11/279 in Engineering, Electrical &Electronic)
2021
[2] Song, J. H., Min, S. H., Kim, S.G., Cho, Y., Ahn, S. H., 2021, Multi-functionalization Strategies Using Nanomaterials: A Review and Case Study in Sensing Applications. International Journal of Precision Engineering and Manufacturing-Green Technology, Most Downloaded Article Award, 2021 to 2022
[1] Song, J. H., Ahn, S. H., & Wang, Y., 2021. A Multiscale Adhesion Model for Deposition Prediction in Laser Enhanced Nanoparticle Deposition Process. Acta Materialia (IF 7.656, Rank 1/79 in Metallurgy, Metallurgical Engineering), 116740.
~ 2020
[10] Song, J.H., Kim, H.J., Kim, M.S., Min, S.H., Wang, Y. and Ahn, S.H., 2020. Direct printing of performance tunable strain sensor via nanoparticle laser patterning process. Virtual and Physical Prototyping (IF 7.310, Rank 2/50 in Engineering, Manufacturing), pp.1-13.
[9] Min, S.H., Lee, T.H., Lee, S., Song, J.H., Lee, G.Y., Zontar, D., Brecher, C. and Ahn, S.H., 2019. Simulation of electrical conductivity for nanoparticles and nanotubes composite sensor according to geometrical properties of nanomaterials. Composites Part B: Engineering (IF 7.635, Rank 2/91 in Engineering, Multidisciplinary, and 1/26 in Materials Science, Composites, 174, p.107003.
[8] Lee, H.T., Song, J.H., Min, S.H., Lee, H.S., Song, K.Y., Chu, C.N. and Ahn, S.H., 2019. Research trends in sustainable manufacturing: A review and future perspective based on research databases. International Journal of Precision Engineering and Manufacturing-Green Technology, pp.1-11.
[7] Song, J.H., Sonkaria, S., Lee, B., Kim, Y.G., Ahn, S.H., Lee, C.S. and Khare, V., 2019. Tuning Intercrystalline Void-like Defects in Nanowire Clusters to TiO2 Quantum Wires with Enhanced Photocatalytic Performance. ACS Applied Energy Materials, 2(8), pp.5643-5655.
[6] Song, J.H., Choi, K.H., Dai, R., Choi, J.O., Ahn, S.H. and Wang, Y., 2018. Controlled kinetic Monte Carlo simulation of laser improved nano particle deposition process. Powder Technology, 325, pp.651-658.
[5] Ahn, S.H., Choi, J.O., Lee, H.T., Song, J.H., Kim, M.S., Yoon, H.S. and Cha, S.W., 2017. Effect of laser-excited ceramic nanoparticles on hardness and porosity of dry-sprayed coating. CIRP Annals, 66(1), pp.519-522.
[4] Chu, W.S., Kim, M.S., Lee, K.T., Bhandari, B., Lee, G.Y., Yoon, H.S., Kim, H.S., Park, J.I., Bilegt, E., Lee, J.Y., Song, J.H., Park, G. H., Bhandari, P., Lee, C.S., Song, C. and Ahn, S.H., 2017. Design and performance evaluation of Korean traditional heating system—Ondol: Case study of Nepal. Energy and Buildings, 138, pp.406-414.
[3] Chu, W.S., Kim, M.S., Jang, K.H., Song, J.H., Rodrigue, H., Chun, D.M., Cho, Y. T., Ko, S. H., Cho, K. J., Cha, S. W., Min, S.K., Jeong, S. H., Jeong, H., Lee, C. M., Chu, C. N. and Ahn, S.H., 2016. From design for manufacturing (DFM) to manufacturing for design (MFD) via hybrid manufacturing and smart factory: A review and perspective of paradigm shift. International Journal of Precision Engineering and Manufacturing-Green Technology, 3(2), pp.209-222.
[2] Park, S.I., Kim, S., Choi, J.O., Song, J.H., Taya, M. and Ahn, S.H., 2015. Low-cost fabrication of WO3 films using a room temperature and low-vacuum air-spray based deposition system for inorganic electrochromic device applications. Thin Solid Films, 589, pp.412-418.
[1] Chu, W.S., Kim, C.S., Lee, H.T., Choi, J.O., Park, J.I., Song, J.H., Jang, K.H. and Ahn, S.H., 2014. Hybrid manufacturing in micro/nano scale: A Review. International journal of precision engineering and manufacturing-green technology, 1(1), pp.75-92.