Research Interests:
- Theoretical and computational methods for the study of the electronic and optical properties of semiconductor nanomaterials
- Synthesis with physical methods and Characterization of amorphous and nanocrystalline materials
Representative publications:
- Efficient H2 gas sensor based on 2D SnO2 disks: Experimental and theoretical studies Umar A. Ammar H.Y., Kumar R., Almas T., Ibrahim A.A., Al-Assiri M. S., Abaker M., Baskoutas S., International Journal of Hydrogen Energy 45, 26388-26401 (2019).
- Design principle for tetrahedral semiconductors and their functional derivatives: cation stabilizing charged cluster network, J Min, J Zhai, T Dong, D Xu, Y Yan, CS Garoufalis, S Baskoutas, Z Zeng, Nano Letters 23 (10), 4648-4653 (2023)
- Scaling universality for size-dependent fundamental gaps in colloidal quantum dots ,T Dong, Y Zhou, Y Li, J Zhai, D Xu, CS Garoufalis, S Baskoutas, Y Yan, Physical Review B 110 (16), 165416 (2024)
- Functional inorganic nanomaterials for optical cancer theranostics, K Song, X Su, W Zhao, F Ai, A Umar, S Baskoutas, Chemical Engineering Journal 485, 150067 (2024)
- Rational Design of Tetrahedral Derivatives as Efficient Light-Emitting Materials Based on “Super Atom” Perspective, Y Li, J Min, Y Jiang, T Dong, D Xu, Z Feng, Y Yan, CS Garoufalis, Nano Letters 24 (10), 3237-3242, (2024)
- Optical gain and entanglement through dielectric confinement and electric field in InP quantum dots, CS Garoufalis, DB Hayrapetyan, HA Sarkisyan, PA Mantashyan, Z Zeng, Iosif Galanakis, Gabriel Bester, Torben Steenbock, Sotirios Baskoutas, Nanoscale 16 (17), 8447-8454 (2024)
Contact Details
(+30) 2610 997805
bask (AT) upatras {DOT} gr
