Gric, T., & Rafailov, E. (2025, March). Highly thermal tunable propagating surface plasmons on supported novel metamaterials. In Optical Fibers and Sensors for Medical Diagnostics, Treatment, and Environmental Applications XXV (Vol. 13310, pp. 145-150). SPIE.

Milenkovic, A., Djordjevic, A., Jankovic, D., Rajkovic, P., Edee, K., & Gric, T. (2025). Healthcare AI for Physician-Centered Decision-Making: Case Study of Applying Deep Learning to Aid Medical Professionals. Computers, 14(8), 320.

Edee, K., Granet, G., & Gric, T. (2025). Wave transport and venous-like mode formation in correlated disordered freeform 2D metagratings. Journal of the Optical Society of America B, 42(8), 1706-1714.

Goodfriend, N. T., Mirza, I., Bulgakov, A. V., Campbell, E. E., & Bulgakova, N. M. (2025). Laser-induced gas-phase transfer and direct stamping of nanomaterials: comparison of nanosecond and femtosecond pulses. Materials Research Express.

Edee, K., Rafailov, E., Vrček, I. V., Milenkovic, A. M., & Gric, T. (2025). Statistically correlated disordered freeform random metasurfaces: generation and electromagnetic numerical simulation. Optics express, 33(5), 11280-11300.

Gric, T. (2025). Highly tunable propagating surface plasmons on supported ITO nanowire metamaterial. Applied Physics B, 131(4), 92.

Dokumaci, A. I., Alkurt, F. Ö., Wang, L., & Karaaslan, M. (2025). Metamaterial absorber-based rectifier circuit for efficient RF energy harvesting at 2.4 ghz for IoT applications. Analog Integrated Circuits and Signal Processing, 124(1), 8.

Gric, T. (2025). Semiconductor-Driven Nanostructured Metamaterial with Epsilon-Near-Zero Transition Layer for Tunable Enhanced Absorption. Plasmonics, 1-9.