Gender

Male


Location

Volos


Birthday:

January 6


I am...

Physicist


My research field or area of interest innanotechnology

nanofluidics, microfluidics, nanomaterials, Atomistic modeling,multiscale modeling, system dynamics


Interest in...

collaborations in the field of nanofluidics and multisclae modeling as well in the field of nanomaterials and nanoscience education


Publication list

1. F. Sofos, T. Karakasidis and Antonios Liakopoulos, “Surface wettability effects on flow in rough wall nanochannels”, accepted Microfluidics Nanofluidcs (2011) 2. D. Kasiteropoulou, T. Karakasidis, A. Laikopoulos, “Dissipative Particle Dynamics Investigation of Parameters Affecting Planar Nanochannel Flows”, Mat. Sci. Eng.B, In Press, Corrected Proof, 2011 3. T.E. Karakasidis, C.A. Charitidis, “Influence of nano-inclusions’ grain boundaries on crack propagation modes in materials”, Materials Science and Engineering: B, 176(6), pp. 490-493 (2011) 4. D. Kasiteropoulou, T. Karakasidis, A. Laikopoulos, A Dissipative Particle Dynamics study of flow in periodically grooved nanochannels, Journal of Numerical methods in Fluids (2011) in press 5. T.E. Karakasidis, C.A. Charitidis, “Vacancy effect on the elastic constants of layer-structured nanomaterials”, Theoretical and Applied Fracture Mechanics, 51, 195-201 (2009) 6. Filippos Sofos, Theodoros Κarakasidis, Antonios Liakopoulos, “Effect of wall roughness on shear viscosity and diffusion in nanochannels”, International Journal of Heat and Mass Transfer, 53, pp. 3839-3846 (2010) Andreadis, I., Karakasidis, T.E., “On a topological closeness of perturbed Mandelbrot sets”, Applied Mathematics and Computation 215, pp. 3674-3683 (2010) 7. Filippos Sofos, Theodoros Κarakasidis, Antonios Liakopoulos, «Transport properties of liquid argon in krypton nanochannels: Anisotropy and non-homogeneity introduced by the solid walls», International Journal of Heat and Mass Transfer 52, pp. 735-743 (2009) 8. Filippos Sofos, Theodoros Karakasidis, Antonios Liakopoulos, “Effects of wall roughness on flow in nanochannels”, Physical Review E 79, 026305 [7 pages] (2009). 9. Filippos Sofos, Theodoros Κarakasidis, Antonios Liakopoulos, "Non-Equilibrium Molecular Dynamics investigation of parameters affecting planar nanochannel flows" Contemporary Engineering Sciences 2, 283 (2009). 10. Georgiou, D.N., Karakasidis, T.E., Nieto, J.J., Torres, A., “Use of fuzzy clustering technique and matrices to classify amino acids and its impact to Chou's pseudo amino acid composition”, Journal of Theoretical Biology, 257, pp. 17-26 (2009) 11. D. Vavougios, T. Karakasidis, “Application of ICT technology in physics education: teaching and learning elementary oscillations with the aid of simulation software”, International Journal of Emerging Technologies in Learning, 3, 53, (2008) 12. T.E. Karakasidis and C.A. Charitidis, “Multiscale modeling in nanomaterials science”, Materials Science & Engineering C 27, 1082 (2007) 13. C. Charitidis, T.E. Karakasidis, P. Kavouras, Th. Karakostas, “Size effect of crystalline inclusions on the fracture modes in glass-ceramic materials”, Journal of Physics Condensed Matter 19, 266209 (2007). 14. T.E. Karakasidis, C.A. Charitidis, D. Skarakis, F. Chouliaras, “Elastic properties of nanostructured materials with layered grain boundary structure”, Surface Science 601, 3521, (2007). 15. T.E. Karakasidis and E. Vamvakopoulos “Ni3+ adsorbate dynamics on a NiO (001) surface” Surface Science” 600, 1952 (2006). 16. T.E. Karakasidis, “Vibrational and topological properties of selected NiO surfaces”, Surface Science” 600, 4089 (2006). 17. T.E. Karakasidis, D.G. Papageorgiou G.A. Evangelakis, “Molecular dynamics study of the Ni+2 adatom diffusion on the NiO(001) surface”, Defects and Diffusion Forum 194-199, 1387 (2001). 18. T.E. Karakasidis, D.G. Papageorgiou and G.A. Evangelakis, “Cation adatom diffusion on the NiO(001) surface by molecular dynamics simulation”, Surface Science 486, 46 (2001). 19. D.G. Papageorgiou, T.E. Karakasidis and G.A. Evangelakis, “Oxygen adatom diffusion on the NiO(001) surface by molecular dynamics simulation", Physica B, 318, 211 (2002). 20. T.E. Karakasidis, “Vibrational Properties of a Σ5(310)[001] NiO grain boundary: a local analysis by molecular dynamics simulation”, Surface Science, 515, 1, (2002). 21. T.E. Karakasidis, D.G. Papageorgiou and G.A.Evangelakis, “Structure and dynamics of NiO(001) and Ni/NiO(001) surfaces by molecular dynamics simulation”, Applied Surface Science 162-163, 233 (2000). 22. T.Ε. Karakasidis, G.Α. Evangelakis, "Cation vacancy diffusion on the NiO(001) surface by molecular dynamics simulations”, Surface Science 436, 193 (1999). 23. T. Karakasidis and M. Meyer, “Grain boundary diffusion of cation vacancies in nickel oxide: a molecular dynamics study”, Physical Review B, 55, 13853 (1997).


Researchgroup, Institute, University, School, Company name

Univeristy of Thessaly, School of Engineering


Researchgroup, Institute, Company, University, School webpage

https://thkarak.users.uth.gr


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