Directory
Eunsung Shin
Senior Research Physicist
Full-Time Faculty
School of Engineering: Department of Electrical and Computer Engineering
Education
- Ph.D. in Electro-Optics, University of Dayton, Dayton, Ohio, USA, 2004
- M.S. in Optics, Hallym University, Chunchon, South Korea, 1997
- B.S. in Physics, Hallym University, Chunchon, South Korea, 1990
Experience
- Senior Research Physicist, Department of Electrical and Computer Engineering, University of Dayton (Jan. 2016 – Current)
- Research Physicist, Research Institute, University of Dayton (Jan. 2013 – Dec. 2015)
- Associate Research Physicist, Research Institute, University of Dayton (Sep. 2004 – Dec. 2012)
- Graduate Research Assistant, Electro-Optics, University of Dayton (Sep. 2000 – Aug. 2004)
- Teaching and Research Assistant, Physics, Hallym University (Sep. 1994 – Feb. 1998)
- Military Service (Dec. 1990 – Mar. 1993): Served the Korean Army as a private and discharged honorably as a sergeant
Selected Publications
- Naziripour, G., Zhao, J., Subramanyam, G., Shin, E., Sarangan, A. (2022, October). V1-xWxO2 thermochromic films for device applications. MRS Advances, 7:596-600.
- Harvey, M.C., Subramanyam, G., Shin, E. (2022). Enhancements of BST Thin Film Varactors with SmScO3 Buffer Layer on Sapphire Substrate. 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (AP-S/URSI), pp. 952-953, doi: 10.1109/AP-S/USNC-URSI47032.2022.9886373.
- Shallcross, A., Mahalingam, K., Shin, E., Subramanyam, G., Alam, M. S., Taha, T., Ganguli, S., i, Bowers, C., Athey, B., Hilton, A., Roy, A., and Dhall, R. (2022, April). Transmission Electron Microscopy Study on the Effect of Thermal and Electrical Stimuli on Ge2Te3 Based Memristor Devices, Front. Electron. 3, 872163.
- Subramanyam, G., Shin, E., Peri, P. R., Katiyar, R., Naziripour, G., & Dey, S. (2021, September). Structural, electrical, and electromagnetic properties of nanostructured vanadium dioxide thin films. Thin Film Nanophotonics, 65-90, ISBN 9780128220856, Elsevier.
- Zaman, A., Subramanyam, G., Shin, E., Yakopcic, C., Taha, T., Islam, A. E., Ganguli, S., Dorsey, D., & Roy, A. (2020, October). Experimental verification of current conduction mechanism for a lithium niobate based memristor. ECS J. Solid State Sci. Technol., 9(10), 103003.
- Li, L., Shin, E., Attariani, H., Wang, W., & Subramanyam, G. (2020, August). Experimental demonstration of vanadium dioxide phase change thin film based tunable spiral inductors. ECS J. Solid State Sci. Technol., 9(7), 075003.
- Annam, K., Spatz, D., Shin, E., & Subramanyam, G. (2019). Experimental verification of microwave phase shifters using barium strontium titanate (BST) varactors. 2019 IEEE National Aerospace and Electronics Conference (NAECON), Dayton, Ohio, USA, 63-66. doi: 10.1109/NAECON46414.2019.9058107
- Zaman, A., Shin, E., Yakopcic, C., Taha, T. M., & Subramanyam, G. (2019). Analysis of lithium niobate memristor devices for neuromorphic programmability. 2019 IEEE National Aerospace and Electronics Conference (NAECON), Dayton, Ohio, USA, 41-45. doi: 10.1109/NAECON46414.2019.9058020
- Shin, E., Li, L., Pan, K. & Subramanyam, G. (2019, December). Design and fabrication of tunable inductors based on vanadium dioxide thin film. Proc. SPIE, 11371, International Workshop on Thin Films for Electronics, Electro-Optics, Energy, and Sensors 2019, 113710A.
- Yakopcic, C., Wang, S., Wang, W., Shin, E. Boeckl, J., Subramanyam, G., & Taha, T. M. (2018, December). Filament formation in lithium niobate memristors supports neuromorphic programming capability. Neural Computing and Applications, 30(12), 3773-3779.
- Zaman, A., Shin, E., Yakopcic, C., Taha, T. M., & Subramanyam, G. (2018, July). Experimental study of memristors for use in neuromorphic computing. NAECON 2018 - IEEE National Aerospace and Electronics Conference, Dayton, Ohio, USA, 370-374. doi: 10.1109/NAECON.2018.8556749.
- Shin, E., Pan, K., Wang, W., Subramanyam, G., Vasilyev, V., Leedy, K. & Quach, T. (2018, May). Tungsten-doped vanadium dioxide thin film based tunable antenna. Mater. Res. Bull., 101, 287-280.
- Li, L., Wang, W., Shin, E., & Subramanyam, G. (2018, April). Tunable inductors using integrated vanadium dioxide phase change thin films. Advances in Condensed Matter Physics, 2018, Article ID 3468017, 7 pages. doi:10.1155/2018/3468017.
- Li, L., Wang, W., Shin, E., Quach, T. & Subramanyam, G. (2017, June). Design of tunable shunt and series interdigital capacitors based on vanadium dioxide thin film. Aerospace and Electronics Conference, NAECON 2017 - IEEE National, IEEE, 279-283. ISSN: 2379-2027.
- Littlejohn, A. J., Yang, Y.-B., Lu, Z.-H., Shin, E., Pan, K. Subramanyam, G., Vasilyev, V., Leedy, K., Quach, T., Lu, T.-M., & Wang, G.-C. (2017, May). Naturally formed ultrathin V2O5 heteroepitaxial layer on VO2/sapphire(001) film. Appl. Surf. Sci., 419, 365-372.
- Yakopcic, C., Wang, S., Wang, W., Shin, E., Subramanyam, G., & Taha, T. (2017, May). Methods for high resolution programming in lithium niobate memristors for neuromorphic hardware. Neural Networks (IJCNN), 2017 International Joint Conference, IEEE, 1704-1708. ISSN: 2161-4407
- Wang, S., Wang, W., Shin, E., Subramanyam, G., & Quach, T. (2017, May). Tunable inductors using vanadium dioxide as the control material. Microwave and Optical Technology Letters, 59(5), 1057-1061.
- Wang, S., Wang, W., Yakopcic, C., Shin, E., Subramanyam, G., & Taha, T. M. (2017, January). Experimental study of LiNbO3 memristors for use in neuromorphic computing. Microelectronic Engineering, 168, 37-40.
- Szep, R. Kim, Shin, E., Fanto, M. L., Osman, J., & Alsing, P. M. (2016, October). Polarization entangled cluster state generation in a lithium niobate chip. Proc. SPIE, 9996, Quantum Information Science and Technology II, 99960G.
- Taha, T., Subramanyam, G., Wang, W., Shin, E., Wang, S., & Yakopcic, C. (2016, September). Reconfigurable neuromorphic crossbars based on titanium oxide memristors. Electronics Letters, 52(20), 1673-1675.
- Wang, S., Shin, E., Subramanyam, G., Wang, W., Leedy, K., Quach, T., & Cerny, C. (2015, November). A resonant circuit realization using a 3D inductor in combination with thin film varactor technology. Proc. SPIE, 9667, International Workshop on Thin Film for Electronics, Electro-Optics, Energy, and Sensors, 966705.
- Yue, H., Spatz, D., Wang, S., Shin, E., & Subramanyam, G. (2015, November). Thin film strontium titanate ferroelectric varactors for microwave applications. Proc. SPIE, 9667, International Workshop on Thin Film for Electronics, Electro -Optics, Energy, and Sensors, 966704.
- Pan, K., Wang, W., Shin, E., Freeman, K., & Subramanyam, G. (2015, September ). Vanadium oxide thin-film variable resistor-based RF switches. IEEE Transactions on Electron Devices, 62(9), 2959-2965.
- Wang, S., Wang, W. Shin, E., Yakopic, C., Taha, T. M., & Subramanyam, G. (2015, June). Lithium based memristive devices. Aerospace and Electronics Conference, NAECON 2015 - IEEE National.
- Wang, W., Yakopcic, C., Shin, E., Leedy, K., Taha, T. K., & Subramanyam, G. (2014, June). Fabrication, characterization, and modeling of memristor devices. Aerospace and Electronics Conference, NAECON 2014 - IEEE National, 259-262, ISBN: 978-1- 4799-4690- 7, IEEE.
- Pan, K., Shin, E., Freeman, K., Wang, W., Brown, & Subramanyam, G. (2014, June). Vanadium dioxide thin film series single-pole single throw switch. Aerospace and Electronics Conference, NAECON 2014 - IEEE National, 1-4, ISBN: 978-1- 4799-4690- 7, IEEE.
- Subramanyam, G., Shin, E., Brown, D., & Yue, H. (2013, August). Thermally controlled vanadium dioxide thin film microwave devices, circuits and systems. MWSCAS, 73-76.
- Papernov, S., Shin, S., Murray, P. T., Schmid, A. W., & Oliver, J. B. (2012, December). 355-nm absorption in HfO2 and SiO2 monolayers with embedded Hf nanoclusters studied using photothermal heterodyne imaging. Proc. SPIE, 8530, 85301H.
- Shin, E., Murray, P. T., Subramanyam, G., Malik, H. K., & Schwartz, K. L. (2012, July). Synthesis of oxidation resistant lead nanoparticle films by modified pulsed laser ablation. AIP Conf. Proc. 1464, 280-293.
- Yoon, Y., Li, L., Shin, E., Lafdi, K., & Bouchard, M. (2012, February). The effect of carbon-nanotubes on the electrochemical sensing behavior of aluminum alloys. ECS Transactions, 41, 69-90.
- Petry, L., Shin, E., Hansen, D. C., Keil, R. G., & Murray, P. T. (2011). Preparation and characterization of novel nanometer-scale platinum electrodes. Electrochimica Acta, 56, 6779-6788.
- Nalladega, V., Sathish, S., Murray, P. T., Shin, E., Jata, K., & Blodgett, M. (2011, June). Experimental investigation of interaction of very low frequency electromagnetic wave with metallic nanostructure. Journal of Applied Physics, 109(11), 114907.
- Yakopcic, C., Shin, E., Taha, T. M., Subramanyam, G., Murray, P. T., & Rogers, S. (2010). Fabrication and testing of memristive devices. Computational Intelligence, 1929-1932.
- Yakopcic, C., Taha, T. M., Shin, E., Subramanyam, G., Murray, P. T., & Rogers, S. (2010, August). Memristor fabrication and characterization: An adaptive coded aperture imaging & sensing opportunity. Proc. SPIE, 7818, 78180J.
- Yakopcic, C., Taha, T. M., Subramanyam, G., Shin, E., Murray, P. T., & Rogers, S. (2010, August). Memristor-based pattern recognition for image processing: An adaptive coded aperture imaging and sensing opportunity. Proc. SPIE, 7818, 78180E.
- Nalladega, V., Sathish, S., Murray, P. T., Shin, E., Jata, K., Blodgett, M. & Knopp, J. S. (2010, June). Experimental investigation of low frequency electromagnetic wave interaction with metallic nanoparticles. In Electromagnetic Nondestructive Evaluation (XIII), ISBN: 978-1-60750-553-2, IOS Press.
- Murray, P. T., & Shin, E. (2010, March). Synthesis of Ag nanoparticles by through thin film ablation, in silver nanoparticles, INTECH, ISBN 978-953-307-028-5.
- Crouse, C. A., Shin, E., Murray, P. T. & Spowart, J. E. (2010, February). Solution assisted laser ablation synthesis of discrete aluminum nanoparticles. Materials Letters, 64(3), 271-274.
- Murray, P. T., & Shin, E. (2009, September). Thin film, nanoparticle, and nanocomposite fabrication by through thin film ablation. Proc. SPIE, 7404, 74040F.
Selected Research and Work
- Fabrication and development of LiNbO 3 optical integrated circuits
- Fabrication and development of nanostructured multifunctional oxide thin film devices for applications in electronics, photonics and sensors
- Fabrication and development of thin film rechargeable batteries
Courses Taught
- ECE-431L
- ECE-432L
Research Interests
- Integrated photonics
- Thin film devices
- Thin film batteries
- Nanomaterial synthesis
- Laser-material interaction