Since 2003

85) A Comparative study on the thermomechanical and electrical properties of carbide/ or graphite/epoxy reinforced composites.
S. Gioti, S. G. Stavropoulos, A. Sanida, G. C. Psarras
Journal of Thermal Analysis and Calorimetry, 
142, (2020), p. 1649–1657.

84) Development and characterization of multifunctional yttrium iron garnet /epoxy nanodielectrics.
A. Sanida, S. G. Stavropoulos, T Speliotis, G. C. Psarras
Journal of Thermal Analysis and Calorimetry
142, (2020), p. 1701–1708.

83) Panacea: A greek ancient myth ‘living’ in materials science?
G. C. Psarras
eXPRESS Polymer Letters
Vol. 14 (12), (2020).
http://www.expresspolymlett.com/letolt.php?file=EPL-0010988&mi=c

82). Boron nitride/epoxy resin nanocomposites: development, characterization and functionality. 
A.C. Konstantinou, A. C. Patsidis, G. C. Psarras
Journal of Thermal Analysis and Calorimetry
(2020).
https://link.springer.com/article/10.1007/s10973-020-09933-z

81). The effect of micro-fibrillated cellulose upon the dielectric relaxations and DC conductivity in thermoplastic strarch bio-composites. 
S. X Drakopoulos, J. KargerKocsis, G. C. Psarras
Journal of Applied Polymer Science
vol. 137 (48),(2020), art. no. 49573.
https://onlinelibrary.wiley.com/doi/abs/10.1002/app.49573

80). On the ferroelectric to paraelectric stuctural transition of BaTiO3 nicro-/nanoparticles and their epoxy nanocomposites.
G. C. Manika, K. S. Andrikopoulos, G. C. Psarras
Molecules vol. 25 (11), (2020), art. no. 2686.
https://www.mdpi.com/1420-3049/25/11/2686

79). Probing the multifunctional behaviour of barium zirconate/ barium titanate/epoxy resin hybrid nanodielectrics. 
Z.M. Tsikriteas, G. C. Manica, A. C. Patsidis, G. C. Psarras
Journal of Thermal Analysis and Calorimetry vol. 142, (2020), p. 231–243.
https://link.springer.com/article/10.1007/s10973-020-09855-w

78). A comparative study on the electrical properties of different forms of carbon allotropes-epoxy nanocomposites. 
S. G. Stavropoulos, A. Sanida, G. C. Psarras
eXPRESS Polymer Letters
vol. 14 (5), (2020).
http://www.expresspolymlett.com/letolt.php?file=EPL-0010370&mi=c

77). Probing the magnetoelectric response and energy efficiency in Fe3O4/Epoxy nanocomposites.
A. Sanida, S. G. Stavropoulos, T Speliotis, G. C. Psarras
Polymer Testing,
(2020), art. no 106560.
https://www.sciencedirect.com/science/article/pii/S0142941819319178

76). UV-cured poly (Ethylene Glycol) diacrylate/carbon nanostructure thin films. preperation, characterization and electrical properties. 
P. Loginos, A.C. Patsidis, V. Georgakilas
Journal of Composites Science
vol. 4 (1), (2020), 4.
https://www.mdpi.com/2504-477X/4/1/4

75). Barium titanate/polydimethylsiloxanne nano/microcomposites fabrication, morphology, dielectric responce and functionality. 
A. C. Patsidis
ET Nanodielectrics 
vol. 3 (1), (2020), p. 14-19.
https://digital-library.theiet.org/content/journals/10.1049/iet-nde.2019.0043

74). SrTiO3/epoxy nanodielectrics as bulk energy storage & harvesting systems – the role of conductivity.
G. C. Manika, G. C. Psarras
ACS Applied Energy Materials 
vol.3 (1), (2019), p. 831-842.
https://pubs.acs.org/doi/abs/10.1021/acsaem.9b01953

73). Investigating the effect of Zn ferrite nanoparticles on the thermomechanical, dielectric and magnetic properties of polymer nanocomposites.
A. Sanida, S. G. Stavropoulos, Th. Speliotis, G. C. Psarras,
Materials,
vol. 12, (2019), art. no. 3015, p. 12.

72). Development, dielectric response and functionality of SrTiO3/epoxy nanocomposites.
G. C. Manika, G. C. Psarras,
Journal of Materials Science : Materials in Electronics,
vol. 30(14), (2019), p. 13740–13748.

71). Atmospheric plasma nanotexturing of organic−inorganic nanocomposite coatings for multifunctional surface fabrication.
P. Dimitrakellis, A. C. Patsidis, A. Smyrnakis, G. C. Psarras, E. Gogolides,
ACS Applied Nanomaterials,
vol. 2(5), (2019), p. 2969-2978.

70). ZnTiO3/epoxy resin nanocomposites: development, dielectric behaviour and functionality.
E. Koufakis, G. N. Mathioudakis, A. C. Patsidis, G. C. Psarras,
Polymer Testing,
vol. 77, (2019), art, no 105870.

69). Barium titanate/epoxy resin composite nanodielectrics as compact capacitive energy storing systems.
G. C. Manika, G. C. Psarras,
Express Polymer Letters,
vol.13(8), (2019), p. 749–758.

68). Combined optimized effect of a highly self-organized nanosubstrate and an electric field on osteoblast bone cells activity.
D. V. Portan, D. D. Deligianni , G. C. Papanicolaou, V. Kostopoulos, G. C. Psarras, M.Tyllianakis,
BioMed Research International
article ID 7574635, 8 pages, (2019).

67). Polyvinylidene fluoride/magnetite nanocomposites: Dielectric and thermal response.
E. C. Pyrgioti, A. Sanida, S. G. Stavropoulos, G. C. Psarras,
Journal of Physics and Chemistry of Solids,
vol. 129, (2019), p. 378-386.

66). In situ thermodielectric analysis of the gelatinization mechanism of raw maize starch: An experimental and theoretical approach.
S. X. Drakopoulos, J. Karger-Kocsis, G. C. Psarras,
Journal of Polymers and the Environment,
vol. 27, (2019), p. 333–342.

65). Nanocomposites of barium titanate nanoparticles embedded in thermosetting polymer matrices (novolac resin/unsaturated polyesters/epoxy resin): A comparative study.
I. A. Asimakopoulos, G. C. Psarras, L. Zoumpoulakis,
ChemEngineering,
vol. 3, (2019), art. no. 3 (20p).

64). Assessing the critical multifunctionality threshold for optimal electrical, thermal, and nanomechanical properties of carbon nanotubes/epoxy nanocomposites for aerospace applications.
A. F. A. Trompeta, E. P. Koumoulos, S. G. Stavropoulos,
Th. G. Velmachos, G. C. Psarras, C. A. Charitidis,
Aerospace,
vol. 6, (2019), art. no. 7 (18p).

63). Magneto-dielectric behaviour of M-Type hexaferrite/polymer nanocomposites.
A. Sanida, S. Stavropoulos, Th. Speliotis, G. C. Psarras,
Materials,
vol. 11, (2018), art. no. 2551 (14p).

62). A comparative thermomechanical study of ferrite/polymer nanocomposites.
A. Sanida, S.G. Stavropoulos, G.C. Psarras,
Structural Integrity Procedia,
vol. 10, (2018), p. 257-263.

61). Thermomechanical response of Fe3O4/PVDF nanocomposites.
A. Sanida, Th.G. Velmachos, S.G. Stavropoulos, G.C. Psarras, C. Tsonos, A. Kanapitsas, N. Soin, E. Siores,
Structural Integrity Procedia,
vol. 10, (2018), p. 91-96.

60). A ‘backstage force’: magnetic properties of polymer composites.
G. C. Psarras,
Express Polymer Letters,
vol. 12(9), (2018), p. 767.

59). Entanglement dynamics in ultra-high molecular weight polyethylene as revealed by dielectric spectroscopy.
S. X. Drakopoulos, G. C. Psarras, G. Forte, I. Martin-Fabiani, S. Ronca,
Polymer,
vol. 150, (2018), p. 35-43.

58). Development, multiple characterization and functionality in magnetic nanoparticles – polymer matrix nanodielectrics.
A. Sanida, S. G. Stavropoulos, Th. Speliotis, G. C. Psarras,
Materials Today: Proceedings
vol. 5, (2018), p. 27491–27499.

57). Dielectric response of vulcanized natural rubber containing BaTiO3 filler: The role of particle functionalization.
N. González, M. Àngels Custal, G. N.Tomara, G. C. Psarras, J.-R. Riba,
E. Armelin,
European Polymer Journal,
vol. 97, (2017), p. 57–67.

56). Dielectric relaxation mechanisms in polyoxymethylene/ polyurethane/ layered silicates hybrid nanocomposites.
G. N.  Tomara, P. K. Karahaliou, G. C. Psarras, S. N. Georga, C. A. Krontiras, S. Siengchin, J. Karger-Kocsis,
European Polymer Journal,
vol. 95, (2017), p. 304–313.

55). Development, characterization, energy storage and interface dielectric properties in SrFe12O19/epoxy nanocomposites. 
A. Sanida, S. G. Stavropoulos, Th. Speliotis, G. C.Psarras,
Polymer,         
vol. 120, (2017), p. 73-81.

54). Magneto-electric response and functionality in barium ferrite/barium titanate/epoxy resin nanocomposites.
A. Kanapitsas, G. C. Psarras, C. Tsonos, A. Speliotis, A. C. Patsidis, E. Siores, D. Triantis,
Journal of Advanced Physics,
vol. 6, (2017), p. 69-75.

53). Thermoplastic starch modified with microfibrillated cellulose and natural rubber latex: A broadband dielectric spectroscopy study.
S. X. Drakopoulos, J. Karger-Kocsis, Á. Kmetty, L. Lendvai, G. C. Psarras,
Carbohydrate Polymers,
vol. 157, (2017), p. 711-718.

52). Energy storage and harvesting in BaTiO3 /epoxy Nanodielectrics.
G. C. Manika, G. C. Psarras,
High Voltage,
vol. 1(4), (2016), p. 151-157.

51). “Energy materials”…the role of polymers.
G. C. Psarras,
Express Polymer Letters,
vol. 10, (2016), p. 721.

50). Dielectric response and molecular dynamics in epoxy-BaSrTiOnanocomposites: effect of nanofiller loading.
O. Vryonis, D. L. Anastassopoulos, A. A. Vradis, G. C. Psarras,
Polymer,
vol. 95, (2016), p. 82-90.

49). Electromagnetic wave absorption properties of ternary poly(vinylidene fluoride)/magnetite nanocomposites with carbon nanotubes and graphene.
C. Tsonos, N. Soin, G. Tomara, B. Yang, G. C. Psarras, A. Kanapitsas, E. Siores,
RSC Advances,
vol. 6, (2016), p. 1919-1924.

48). Barium ferrite/epoxy resin nanocomposite systems: Fabrication, dielectric, magnetic and hydration studies.
A. Kanapitsas, C. Tsonos, G. C. Psarras, S. Kripotou,
Express Polymer Letters,
vol. 10(3), (2016), p. 227-236.

47). Broadband dielectric response and energy storage in elastomeric/inorganic filler nanocomposites.
E. J. Pappa, O. Vryonis, A. Kalini, A. C. Patsidis, G. C. Psarras,
Journal of Advanced Physics,
vol. 4, (2015), 337–343.

46). Dielectric response and energy storage efficiency of low content TiO2-polymer matrix nanocomposites.
G. N. Tomara, A. P. Kerasidou, A. C. Patsidis, P. K. Karahaliou, G. C. Psarras, S. N. Georga, C. A. Krontiras,
Composites: Part A,
vol. 71, (2015), 204–211.

45). Water vapour transport enhancement through isotactic polypropylene by incorporating multiwalled carbon nanotubes.
G. Bounos, K. S. Andrikopoulos, H. Moschopoulou, Th. Ioannides, K. Kouravelou, G. C. Psarras, G. A. Voyiatzis,
Powder Metallurgy and Metal Ceramics,
vol.53(11-12), (2015), 634-642.

44). Effect of ZnO Nanoparticles on the dielectric/electrical and thermal properties of epoxy-based nanocomposites.
C. Tsonos, A. Kanapitsas, G. C. Psarras, Th. Speliotis,
Science of Advanced Materials,
vol. 7, (2015), 588–597.

43). Dielectric relaxations in polyoxymethylene and in related nanocomposites: identification and molecular dynamics.
P. K. Karahaliou, A. P. Kerasidou, S. N. Georga, G. C. Psarras, C. A. Krontiras, J. Karger-Kocsis,
Polymer,
vol. 55, (2014), 6819-6826.

42). Graphite Nanoplatelets and/or Barium Titanate / Polymer Nanocomposites: Fabrication, Thermomechanical Properties, Dielectric Response and Energy Storage.
A. C. Patsidis, K. Kalaitzidou, D. L. Anastassopoulos, A. A. Vradis, G. C. Psarras,
Journal of the Chinese Advanced Materials Society,
vol. 2(3), (2014), p. 207-221.

41). Barium titanate/polyester resin nanocomposites: Development, structure-properties relationship and energy storage capability.
I. A. Asimakopoulos, G. C. Psarras, L. Zoumpoulakis,
Express Polymer Letters,
vol. 8(9), (2014), p. 692-707.

40). HNBR and its MWCNT reinforced nanocomposites: crystalline morphology and electrical response.
G. C. Psarras, G. A. Sofos, A. Vradis, D. L. Anastassopoulos, S. N. Georga, C. A. Krontiras, J. Karger-Kocsis,
European Polymer Journal,
vol. 54, (2014), p. 190-199.

39). Graphite nanoplatelets/polymer nanocomposites: thermomechanical, dielectric, and functional behaviour.
A. C. Patsidis, K. Kalaitzidou, G. C. Psarras,
Journal of Thermal Analysis and Calorimetry,
vol. 116, (2014), p. 41-49.

38). Dynamic electrical thermal analysis on zinc oxide/epoxy resin nanodielectrics.
G. N. Mathioudakis, A. C. Patsidis, G. C. Psarras,
Journal of Thermal Analysis and Calorimetry,
vol. 116, (2014), p. 27-33.

37). The ongoing impact of carbon (allotropic forms)/polymer composites.
G. C. Psarras,
Express Polymer Letters,
vol. 8(2), (2014), p. 73.

36). Structural transition, dielectric properties and functionality in epoxy resin – barium titanate nanocompsoites.
A. C. Patsidis, G. C. Psarras,
Smart Materials and Structures,
vol. 22, (2013), 115006 (8pp).

35). Effect of filler size on the thermal properties of ER/BaTiO3 composites.
A. C. Patsidis, S. N. Georga, C. A. Krontiras, G. C. Psarras, A. Kanapitsas, C. Tsonos,
Macromolecular Symposia,
vol. 331-332, (2013), p. 189-196.

34). Thermogravimetric and dielectric study of ER/BaTiO3/ZnO composites.
A. Kanapitsas, C. Tsonos, C. G. Delides, G. C. Psarras,
Macromolecular Symposia,
vol. 331-332, (2013), p. 181-188.

33). Thermal and mechanical characterization of epoxy resin nanocomposites.
A. Kanapitsas, C. Tsonos, H. Zois, C. G. Delides, G. C. Psarras,
Journal of Advanced Physics,
vol. 2(1), (2013), p. 25-28.

32). Carbon or barium titanate reinforced epoxy resin nanocomposites: dielectric, thermomechanical and functional behavior.
A. C. Patsidis, K. Kalaitzidou, G. C. Psarras,
Journal of Advanced Physics,
vol. 2(1), (2013), p. 7-12.

31). Dynamic percolation and dielectric response in multiwall carbon nanotubes/poly(ethylene oxide) composites.
P. L. Pontikopoulos, G. C. Psarras,
Science of Advanced Materials,
vol. 5, (2013), p. 14-20.

30). Dielectric response, functionality and energy storage in epoxy   nanocomposites: barium titanate vs exfoliated graphite nanoplatelets.
A. C. Patsidis, K. Kalaitzidou, G. C. Psarras,
Materials Chemistry and Physics,
vol. 135, (2012), p. 798-805.

29). Development and characterization of novolac resin/BaTiO3 nanoparticles composite system.
I. Asimakopoulos, L. Zoumpoulakis, G. C. Psarras,
Journal of Applied Polymer Science,
vol. 125, (2012), p. 3737-3744.

28). Functionalized graphene-poly(vinyl alcohol) nanocomposites: Physical and dielectric properties.
I. Tantis, G. C. Psarras, D. Tasis,
Express Polymer Letters,
vol. 6(4), (2012), p. 283-292

27). Smart polymer systems: a journey from imagination to applications.
G. C. Psarras
Express Polymer Letters,
vol. 5(12), (2011), p. 1027.

26).  Dielectric relaxation phenomena and dynamics in polyoxymethylene/ polyurethane/alumina hybrid nanocomposites.
G. C. Psarras, S. Siengchin, P. K. Karahaliou, S. N. Georga, C. A. Krontiras, J. Karger-Kocsis,
Polymer International,
vol. 60, (2011), p. 1715-1721.

25). Dielectric and functional properties of polymer matrix/ZnO/BaTiO3 hybrid composites.
G. Ioannou, A. Patsidis, G. C. Psarras,
Composites Part Α: applied science and manufacturing,
vol. 42, (2011), p. 104-110.

24). Probing the dielectric response of polyurethane/alumina nanocomposites.
A. Kalini, K. G. Gatos, P. K. Karahaliou, S. N. Georga, C. A. Krontiras, G. C. Psarras,
Journal of Polymer Science:Part B: Polymer Physics,
vol. 48, (2010), p. 2346-2354.

23). DC and AC conductivity in epoxy resin/multiwall carbon nanotubes percolative system.
A. Vavouliotis, E. Fiamegou, P. Karapappas, G. C. Psarras, V. Kostopoulos,
Polymer Composites,
vol. 31, (2010), p. 1874-1880.

22). Probing the reverse martensitic transformation in constrained shape memory alloys via electrical resistence.
G. Triantafyllou, G. C. Psarras,
Journal of Intelligent Material Systems and Structures,
vol. 21, (2010), p. 975-981.

21). POM/PU/Carbon nanofiber composites produced by water-mediated melt compounding: structure, thermo-mechanical and dielectrical properties.
S. Siengchin, G. C. Psarras, J. Karger-Kocsis,
Journal of Applied Polymer Science,
vol. 117, (2010), p. 1804-1812.

20). Electrical response and functionality of polymer matrix-titanium carbide composites.
C. G. Raptis, A. Patsidis, G. C. Psarras,
Express Polymer Letters,
vol. 4(4), (2010), p. 234-243.

19). Electrical properties of polymer matrix composites: current impact and future trends.
G. C. Psarras,
Express Polymer Letters,
vol. 3(9), (2009), p. 533.

18). Conduction processes in percolative epoxy resin/silver particles composites.
G. C. Psarras,
Science of Advanced Materials,
vol.1, (2009), p. 101–106.

17). Dielectric relaxation processes in epoxy resin – ZnO composites.
A. Soulintzis, G. Kontos, P. Karahaliou, G. C. Psarras, S. N. Georga, C. A. Krontiras,
Journal of Polymer Science:Part B: Polymer Physics,
vol. 47, (2009), p. 445-454.

16). Some physicochemical aspects of nanoparticulate magnetic iron oxide colloids in neat water and in the presence of poly(vinyl alcohol).
A. Bakandritsos, G. C. Psarras, N. Boukos,
Langmuir,
vol. 24(10), (2008), p. 11489-11496.

15). Dielectric behaviour and functionality of polymer matrix-ceramic BaTiO3 composites.
A. Patsidis, G. C. Psarras,
Express Polymer Letters,
vol. 2(10), (2008), p. 718-726.

14). Polyoxymethylene/Polyurethane/Alumina ternary composites: Structure, mechanical, thermal and dielectrical properties.
S. Siengchin, J. Karger-Kocsis, G. C. Psarras, R. Thomann,
Journal of Applied Polymer Science,
vol. 110, (2008), p. 1613-1623.

13). Optical and dielectric properties of ZnO/PVA nanocomposites.
N. Bouropoulos, G. C. Psarras, N. Moustakas, A. Chrissanthopoulos, S. Baskoutas,
Physica Status Solidi A,      
vol. 205(8), (2008), p. 2033-2037.

12). Nanodielectrics: an emerging sector of polymer nanocomposites.
G. C. Psarras,
Express Polyner Letters,
vol. 2(7), (2008), p. 460.

11). Relaxation phenomena in rubber/layered silicate nanocomposites.
G. C. Psarras, K. G. Gatos, P. K. Karahaliou, S. N. Georga, C. A. Krontiras, J. Karger-Kocsis,
Express Polymer Letters,
vol. 1(12), (2007), p. 837-845.

10). Electrical relaxation dynamics in TiO2-polymer matrix composites.
G. A. Kontos, A. L. Soulintzis, P. K. Karahaliou, G. C. Psarras, S. N. Georga, C. A. Krontiras, M. N. Pisanias,
Express Polymer Letters,
vol. 1(12), (2007), p. 781-789.

9). Charge transport properties in carbon black/polymer composites.
G. C. Psarras,
Journal of Polymer Science:Part B: Polymer Physics,
vol. 45(18), (2007), p. 2535-2545.

8). Dielectric properties of layered silicate-reinforced natural and polyurethane rubber nanocomposites.
G. C. Psarras, K. G. Gatos, J. Karger-Kocsis,
Journal of Applied Polymer Science,
vol. 106(2), (2007), p. 1405-1411.

7). Polyurethane latex/water dispersible boehmite alumina nanocomposites: thermal, mechanical and dielectric properties.
K. G. Gatos, J. G. Martínez Alcázar, G. C. Psarras, J. Karger-Koscis,
Composites Science and Technology,
vol. 76, (2007), p. 157-167.

6). Dielectric and conductivity processes in Poly(ethylene terephthalate) and Poly(ethylene naphthalate) homopolymers and copolymers.
G. C. Psarras, A. Soto, G. A. Voyiatzis, P. Karahaliou, S. Georga, C. Krontiras, J. Sotiropoulos,
Journal of Polymer Science:Part B: Polymer Physics,
vol. 44, (2006), p. 3078-3092.

5). Hopping conductivity in polymer matrix – metal particles composites.
G. C. Psarras,
Composites Part Α: applied science and manufacturing,
vol. 37, (2006), p. 1545-1553.

4). Investigation of the phase transformation behaviour of constrained shape memory alloy wires.
P. Petalis, N. Makris, G. C. Psarras,
Journal of Thermal Analysis and Calorimetry,
vol. 84(1), (2006), p. 219-224.

3). Determination of interface integrity in high volume fraction polymer composites at all strain levels.
G. Anagnostopoulos, D. Bollas, J. Parthenios, G. C. Psarras, C. Galiotis,
Acta Materialia,
vol. 53, (2005), p. 647-657.

2). Dielectric dispersion and ac conductivity in –Iron particles loaded- polymer composites.
G. C. Psarras, E. Manolakaki, G. M. Tsangaris,
Composites Part Α: applied science and manufacturing,
vol. 34(12), (2003), p. 1187-1198.

1). Stress and Temperature Self-Sensing Fibres.
G. C. Psarras, J. Parthenios, D. Bollas, C. Galiotis,
Chemical Physics Letters,
vol. 367(3-4), (2003), p. 270-277.