Theodoros KARAKASIDIS

A. PUBLICATIONS IN INTERNATIONAL PEER REVIEWED JOURNALS

1. T. Karakasidis and P. J. D. Lindan, “A comment on a rigid-ion potential for UO2”, J. Phys. : Condens. Matter 6, 2965 (1994). view

2. M. Meyer, T. Karakasidis and C. Waldburger, “High Temperature Diffusion in a NiO Tilt Grain Boundary: a Molecular Dynamics Study”, Materials Science Forum, 207-209, 525 (1996).

3. T. Karakasidis and M. Meyer, “Grain boundary diffusion of cation vacancies in nickel oxide: a molecular dynamics study”, Physical Review B, 55, 13853 (1997). view

4. T.Ε. Karakasidis, G.Α. Evangelakis, "Cation vacancy diffusion on the NiO(001) surface by molecular dynamics simulations”, Surface Science 436, 193 (1999).

5. 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).

6. T.Ε. Karakasidis and M. Meyer, “Molecular dynamics simulation of the atomic structure of a NiO tilt grain boundary at high temperature”, Modelling and Simulation in Materials Science and Engineering 8, 117 (2000).view

7. J. Argyris, I. Andreadis and T.Ε. Karakasidis, “Οn perturbations of the Mandelbrot map”, Chaos, Solitons and Fractals 11, 1131 (2000).

8. J. Argyris, T.Ε. Karakasidis and I. Andreadis, “On the Julia set of the perturbed Mandelbrot map”, Chaos, Solitons and Fractals 11, 2067 (2000).

9. J. Argyris, T.Ε. Karakasidis and I. Andreadis, “On the Julia sets of a noise perturbed Mandelbrot map”, Chaos, Solitons and Fractals 13, 245 (2002).

10. T.E. Karakasidis and I. Andreadis, “A fractional Brownian Motion model for time series produced by constant temperature molecular dynamics simulations”, International Journal of Bifurcation and Chaos in Applied Science and Engineering 12, 377 (2002).

11. 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).

12. P. Samaras, A. Kungolos, T. Karakasidis, D. Georgiou and K. Perakis, “Statistical evaluation of PCDD/F emission data during solid waste combustion by fuzzy clustering techniques”, Journal of Environmental Science and Health – Part A 36, 153 (2001).

13. 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).

14. T.E. Karakasidis, “Vibrational properties of a Σ5(310)[001] NiO grain boundary as a function of temperature: A molecular dynamics study”, Computer Physics Communications 147, 198 (2002).

15. 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).

16. 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).

17. T.E. Karakasidis, I. Andreadis, “A homogeneous random fractal model for time series produced by constant energy molecular dynamics simulations”, Chaos Solitons and Fractals, 15, 87 (2003).view

18. T.Ε. Karakasidis and D.N. Georgiou, “Partitioning elements of the Periodic Table via fuzzy clustering technique”, Soft Computing 8, 231 (2004).

19. T.E. Karakasidis and A.B. Liakopoulos, “Two regime dynamical behaviour in Lennard-Jones Systems: Spectral and rescaled range analysis”, Physica A : Statistical Mechanics and its Applications 333, 225 (2004).view

20. I.A. Andreadis and T.E. Karakasidis, “Noise perturbation of the thermostat in constant temperature molecular dynamics simulations”, Chaos, Solitons & Fractals, 20, 1165 (2004). view

21. T.Ε. Karakasidis, N.S. Cholevas, A.L. Liakopoulos, “Parallel Short Range Molecular Dynamics Simulations on Computer Clusters: Performance Evaluation and Modeling”, Mathematical and Computer Modelling, 42 783 (2005). view

22. T.E. Karakasidis and E. Vamvakopoulos “Ni3+ adsorbate dynamics on a NiO (001) surface” Surface Science” 600, 1952 (2006). view

23. T.E. Karakasidis, “Vibrational and topological properties of selcted NiO surfaces”, Surface Science” 600, 4089 (2006). view

24. J.J. Nieto, A. Torres, D.N. Georgiou, T.E. Karakasidis, “Fuzzy Polynucleotide Spaces and Metrics” Βulletin of Μathematical Βiology 68, 703 (2006)

25. T.E. Karakasidis and C.A. Charitidis, “Multiscale modeling in nanomaterials science”, Materials Science & Engineering C 27, 1082 (2007) view

26. 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). view

27. T.E. Karakasidis, A. Fragkou, A. Liakopoulos, “System dynamics revealed by recurrence quantification analysis: Application to molecular dynamics simulations”, Physical Review E 76, 021120 (2007). view

28. 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). .view

29. T.E. Karakasidis, A. Charakopoulos, Detection of low-dimensional chaos in wind time series, Chaos, Solitons and Fractals, 41, 1723-1732 (2009) .view

30. 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, 17-26 (2009) .view

31. T.E. Karakasidis, A. Liakopoulos, A. Fragkou, P. Papanicolaou, “Recurrence Quantification Analysis of Temperature Fluctuations in a Horizontal Round Heated Jet”, International Journal of Bifurcation and Chaos (2009).

32. 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)

33. Filippos Sofos, Theodoros karakasidis, 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, 735 (2009) view

34. Filippos Sofos, Theodoros Karakasidis, Antonios Liakopoulos, “Effects of wall roughness on flow in nanochannels”, Physical Review E 79, 026305 (2009). view

35. Filippos Sofos, Theodoros Κarakasidis, Antonios Liakopoulos, "Non-Equilibrium Molecular Dynamics investigation of parameters affecting planar nanochannel flows" Contemporary Engineering Sciences 2, 283 (2009) view

36. Andreadis, I., Karakasidis, T.E., “On probabilistic Mandelbrot maps”, Chaos, Solitons and Fractals, 42 1577 (2009).view

37. Andreadis, I., Karakasidis, T.E., “On a topological closeness of perturbed Mandelbrot maps”, Applied Mathematics and Computation, 215 3674 (2010).view

38. T.E. Karakasidis, C.A. Charitidis, "Vacancy effect on the elastic constants of layer-structured nanomaterials", Theoretical and Applied Fracture Mechanics, v.51, pp.195-201 (2009) view

39. T.E. Karakasidis and C.A. Charitidis, “Influence of nano-inclusions’ grain boundaries on crack propagation modes in materials”, Materials Science and Engineering: B, in Press (2010) view

40. F. Sofos, T.E. Karakasidis and A. Liakopoulos, "Effect of wall roughness on shear viscosity and diffusion in nanochannel", International Journal of Heat and Mass Transfer, 53, pp.3839-3846 (2010) view

41. Ioannis Andreadis, Theodoros E. Karakasidis, “On a topological closeness of perturbed Julia sets”, Applied Mathematics and Computation, 217(6), pp. 2883-2890 (2010) view

42.D.N. Georgiou, T.E. Karakasidis, Juan J. Nieto, A. Torres, “A study of entropy/clarity of genetic sequences using metric spaces and fuzzy sets”, Journal of Theoretical Biology, 267(1), pp 95-105 (2010) view

43.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)

44.D. Kasiteropoulou, T. Karakasidis, A. Laikopoulos, “Dissipative Particle Dynamics Investigation of Parameters Affecting Planar Nanochannel Flows”, Materials Science and Engineering: B, Volume 176, Pages 1574–1579 (2011)

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45.D. Kasiteropoulou, T. Karakasidis, A. Laikopoulos, "A Dissipative Particle Dynamics study of flow in periodically grooved nanochannels", Journal of Numerical methods in Fluids 68:1156-1172 (2012).

46.Filippos Sofos, Theodoros E. Karakasidis and Antonios Liakopoulos, “Surface wettability effects on flow in rough wall nanochannels", Microfluidics Nanofluidics, Volume 12, pp 25-31 (2012)

47.Ioannis Andreadis, Theodoros E. Karakasidis.: "On a Closeness of the Julia Sets of noise-perturbed Complex quadratic Maps", International Journal of Bifurcation and Chaos 22, 1250221 [14 pages] (2012)

48. A.E. Giannakopoulos, F. Sofos, T.Ε. Karakasidis, A. Liakopoulos, "Unified description of size effects of transport properties of liquids flowing in nanochannels",International Journal of Heat and Mass Transfer, Volume 55, pp. 5087–5092 (2012)

49.Karakasidis, T.E., Georgiou, D.N., Nieto, J.J., "Fuzzy regression analysis: An application on tensile strength of materials and hardness scales" Journal of Intelligent and Fuzzy Systems, 23, 177-186 (2012)

50. A. Charakopoulos, T.E. Karakasidis, P.N. Papanicolaou, "Detection of jet axis in a horizontal turbulent jet via nonlinear analysis of minimum/maximum temperature time series", Chaotic Modeling and Simulation CMSIM 1: 205-217, 2012

51. Filippos Sofos, Theodoros E. Karakasidis and Antonios Liakopoulos, "Fluid Flow at the Nanoscale: How Fluid Properties Deviate from the Bulk", Nanoscience and Nanotechnology Letters Vol. 5, 1–4, 2013

52. Filippos Sofos, Theodoros E. Karakasidis and Antonios Liakopoulos, "Parameters Affecting Slip Length at the Nanoscale", Journal of Computational and Theoretical Nanoscience, Vol. 10, 1–3, 2013

53. D. Kasiteropoulou, T.E. Karakasidis, A. Liakopoulos, "Mesoscopic simulation of fluid flow in periodically grooved microchannels", Computers and Fluids. Volume 74, Pages 91–101 (2013)

54. F Sofos, TE Karakasidis, A Liakopoulos, "How wall properties control diffusion in grooved nanochannels: a molecular dynamics study", Heat and Mass Transfer, 1-8

55. I Andreadis, TE Karakasidis, "On numerical approximations of the area of the generalized Mandelbrot sets", Applied Mathematics and Computation 219 (23), 10974-10982

56. PV Lemonakis, NE Eliou, GN Botzoris, TE Karakasidis, "Contribution to the Investigation of Motorcyclists’ Speed Prediction Equations for Two-Lane Rural Roads", Journal of Transportation Technologies 3, 204-213

57. D.N.Georgiou, T.E.Karakasidis, A.C.Megaritis, "A Short Survey on Genetic Sequences, Chou’s Pseudo Amino Acid Composition and its Combination with Fuzzy Set Theory", to appear in The Open Bioinformatics Journal (2013)

58. Lemonakis, P.V., Eliou, N.E., Karakasidis, T. Botzoris, G., A new methodology for approaching motorcycle riders’ behavior at curved road sections, J European Transport Research Review, vol. 6, Issue 3, pp 303–314 (2014)

59. A.E. Giannakopoulos, F. Sofos, T.Ε. Karakasidis, A. Liakopoulos, A quasi-continuum multi-scale theory for self-diffusion and fluid ordering in nanochannel flows, Microfluidics Nanofluidcs 17, 1011-1023, (2014)

60. A. Charakopoulos, T.E. Karakasidis, P. Papanicolaou, A Liakoopoulos, Non-linear time series analysis and clustering for jet axis identification in vertical turbulent heated jets, accepted for publication to Physical Review E (2014)

61. A. Charakopoulos, T.E. Karakasidis, P. Papanicolaou, A Liakoopoulos, The application of complex network time series analysis in turbulent heated jets, under review Chaos (2014)

62. Andreadis, I., Karakasidis, T.E., On a numerical approximation of the boundary structure and of the area of the Mandelbrot set, (2015) Nonlinear Dynamics, 80 (1-2), pp. 929-935.

63. Fragkou, A.D., Karakasidis, T.E., Sarris, I.E., Liakopoulos, A., Spatiotemporal Time Series Analysis Methods for the Study of Turbulent Magnetohydrodynamic Channel Flows, Environmental Processes, 2, pp. S141-S158. (2015)

64. Charakopoulos, A.K., Karakasidis, T.E., Liakopoulos, A., Spatiotemporal Analysis of Seawatch Buoy Meteorological Observations, Environmental Processes, 2, pp. S23-S39, (2015).

65. Georgiou, D.N., Karakasidis, T.E., Megaritis, A.C., Nieto, J.J., Torres, A., An extension of fuzzy topological approach for comparison of genetic sequences, Journal of Intelligent and Fuzzy Systems, 29 (5), pp. 2259-2269 (2015).

66. Sofos, F., Karakasidis, T.E., Giannakopoulos, A.E., Liakopoulos, A., Molecular dynamics simulation on flows in nano-ribbed and nano-grooved channels, Heat and Mass Transfer/Waerme- und Stoffuebertragung, 52 (1), pp. 153-162. (2016)

67. Liakopoulos, A., Sofos, F., Karakasidis, T.E., Friction factor in nanochannel flows, Microfluidics and Nanofluidics, 20 (1), art. no. 24, pp. 1-7. (2016)

68. Sofos, F., Karakasidis, T.E., Liakopoulos, A. Fluid structure and system dynamics in nanodevices for water desalination, Desalination and Water Treatment, 57 (25), pp. 11561-11571. (2016)

69. Kasiteropoulou, D., Karakasidis, T., Liakopoulos, A., Study of fluid flow in grooved micro and nano-channels via dissipative particle dynamic: A tool for desalination membrane design, Desalination and Water Treatment, 57 (25), pp. 11675-11684. (2016)

70. Liakopoulos, A., Sofos, F., Karakasidis, T.E., Darcy-Weisbach friction factor at the nanoscale: From atomistic calculations to continuum models, Physics of Fluids, 29 (5), art. no. 052003, (2017).

71. Evangelos G. Karvelas, Nikolaos K. Lampropoulos, Theodoros E. Karakasidis, Ioannis E. Sarris, A computational tool for the estimation of the optimum gradient magnetic field for the magnetic driving of the spherical particles in the process of cleaning water, Desalination and Water Treatment, 99, 27-33 (2017)

72. Charakopoulos, A.K., Katsouli, G.A., Karakasidis, T.E, Dynamics and causalities of atmospheric and oceanic data identified by complex networks and Granger causality analysis, Physica A: Statistical Mechanics and its Applications, Volume 495, Pages 436-453 (2018).

73. Fragkou A.D., T.E. Karakasidis and E. Nathanail, “Detection of traffic incidents using Nonlinear Time series analysis”, Chaos, 28(6), 063108, (2018).

74. D. Spetsiotis, F. Sofos, D. Kassiteropoulou, T.E. Karakasidis, Liakopoulos A, Multi-parameter analysis of water flows in nanochannels, Desalination and Water Treatment, 125, 8-15 (2018).

75. E.G. Karvelas, T.E. Karakasidis, I.E. Sarris, Computational analysis of paramagnetic spherical Fe3O4 nanoparticles under permanent magnetic fields, Computational Materials Science, vol. 154, pp. 464-471 (2018).

76. A. Charakopoulos, T. Karakasidis, Pattern identification for wind power forecasting via complex network and recurrence plot time series analysis, Energy Policy 133, 110934 (2019)

77. Sofos F., Liakopoulos A., Karakasidis T.E., Particle-based modeling and meshless simulation of flows with smoothed particle hydrodynamics, Global NEST Journal, Vol 21, No 4, pp 513-518 (2019)

78. Sofos, F., Karakasidis, T. E., & Spetsiotis, D., Molecular dynamics simulations of ion separation in nano-channel water flows using an electric field. Molecular Simulation, 45(17), 1395-1402 (2019)

79. A.D. Fragkou, T.E. Karakasidis, I.E. Sarris, Recurrence quantification analysis of MHD turbulent channel flow, Physica A: Statistical Mechanics and its Applications, Volume 531, 121741, (2019).

80. E Karvelas, C Liosis, L Benos, T Karakasidis, I Sarris, Micromixing Efficiency of Particles in Heavy Metal Removal Processes under Various Inlet Conditions, Water 11 (6), 1135 (2019).

81. Karakasidis, T. E., Andreadis, I., & Fragkou, A. D., On a topological classification of recurrence plots: Application to noise perturbed molecular dynamics time series. Chaos, 29(2), 023113 (2019).

82. Liosis, C., Karvelas, E. G., Karakasidis, T., & Sarris, I. E. (2020). Numerical study of magnetic particles mixing in waste water under an external magnetic field. Journal of Water Supply: Research and Technology—AQUA, 69(3), 266-275.

83. Karvelas, E. G., Lampropoulos, N. K., Benos, L. T., Karakasidis, T., & Sarris, I. E. (2020). On the magnetic aggregation of Fe3O4 nanoparticles. Computer Methods and Programs in Biomedicine, 105778.

84. Karvelas, E., Liosis, C., Karakasidis, T., & Sarris, I. (2020). Micromixing Nanoparticles and Contaminated Water Under Different Velocities for Optimum Heavy Metal Ions Adsorption. In Environmental Sciences Proceedings (Vol. 2, No. 1, p. 65). Multidisciplinary Digital Publishing Institute.

85. Andreadis, I., Fragkou, A. D., & Karakasidis, T. E. (2020). On a topological criterion to select a recurrence threshold. Chaos: An Interdisciplinary Journal of Nonlinear Science, 30(1), 013124.

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