1 Magnetic field effects on the near field spectra of quantum dots
A. ZORA, C. SIMSERIDES and G. P. TRIBERIS, Phys. Stat. Sol.(a),202, 619(2005)
2. High temperature electrical conductivity due to small polaron hopping motion in DNA molecules,
G. P. TRIBERIS, V. C. KARAVOLAS and C. SIMSERIDES J. Phys.C. S. , 210 (2005)
3. Small polaron hopping transport along DNA molecules
G. P. TRIBERIS, C. SIMSERIDES and V. C. KARAVOLAS J. Phys. Cond. Matt. , 2681 (2005)
4.Thermal conductivity and the Wiedemann-Franz Law in the Fractional Quantum Hall Effect at í=1/2,
V.C. KARAVOLAS and G.P. TRIBERIS, Microelectronics Journal (2005)
5. Near-field magnetoabsorption spectra of quantum dots
C. SIMSERIDES, A. ZORA and G. P.TRIBERIS , Phys. Rev. B, ,155313-1/13 (2006)
6. A small polaron hopping model for the multiphonon-assisted transport along DNA molecules, in the presence of disorder
G. P. TRIBERIS, C. SIMSERIDES and V. C. KARAVOLAS, Physica E Physica E, , 592 (2006)
7. Magneto-optics of quantum dots in the near field
C.D. SIMSERIDES, A. ZORA and G. P. TRIBERIS Intern. Journal of Modern Physics B 1649-1653 (2007)
8.Theory of spontaneous emission of quantum dots in the linear regime,
C.D. SIMSERIDES, A. ZORA and G. P. TRIBERIS, Journ. Phys: Cond. Matt.,, 406201(2007)
9.Room temperature photoluminescence of individual self-assempled quantum dots,
C.D. SIMSERIDES, A. ZORA and G. P. TRIBERIS, Physica E: Low-dimens. Systems and Nanostr., , 1687 (2008)
10. A systematic study of the electron mobility in V-shaped quantum wires at low temperatures,
M. TSETSERI, G.P. TRIBERIS and M. TSAOUSIDOU, Superll. ánd Microstruct., 43, 340-351(2008).
11. The effect of the size of self-assembled individual quantum dots on their PL spectra,
C.D. SIMSERIDES, A. ZORA and G. P. TRIBERIS, Phys. Stat. Sol. 5, 3806 (2008)
12. Thermal conductivity and the Wiedemann-Franz law in the fractional quantum Hall
effect in nanostructures, V.C. KARAVOLAS and G. P. TRIBERIS, World Journ. of Engin., 5, (2008)
13. DNA: A molecular conductive nanowire,
G. P. TRIBERIS and M. DIMAKOGIANNI, World Journ. of Engin. 5, 362 (2008)
14. Correlated small polaron hopping transport in 1D disordered systems at high temperatures:
a possible charge transport mechanism in DNA, G. P. Triberis and M. DIMAKOGIANNI,
J. Phys.: Condens. Matter 21 (2009) 035114
15. DNA in the material world: Electrical properties and Nano-applications,
G. P. TRIBERIS and M. DIMAKOGIANNI, Recent Patents ?n Nanotech. 3 , 135-153 (2009)
Invited Review Article
16. Field and temperature dependence of the small polaron hopping electrical conductivit in 1D disordered systems,
G. P. TRIBERIS and M. DIMAKOGIANNI, J. Phys.: Condens. Matte, 21, 385406(2009)
17. Temperature dependence of the emission spectra of individual self-assembled
quantum dots, A. ZORA, C. SIMSERIDES and G. P. TRIBERIS, J. Phys:
Conf. Ser. 244, art. no. 012037
18. The effect of correlations on the non-ohmic behavior of the small-polaron hopping
conductivity in 1d and 3D disordered systems, M. DIMAKOGIANNI and G. P.
TRIBERIS , J. Phys.: Condens. Matter, 22, 355305(2010)
19. Thermoelectric properties of a weakly coupled quantum dot: enhanced thermoelectric
efficiency, M. TSAOUSIDOU and G. P. TRIBERIS, J. Phys.: Condens. Matter, 22,
355304(2010)
20. Near-Field Optical Properties of Quantum Dots, Applications and Perspectives,
A. ZORA, G.P.TRIBERIS and C. SIMSERIDES, 5, 188-224 (2011) Invited Review Article
21. Density of states and extent of wave function: two crucial factors for small polaron hopping
conductivity in 1D M. DIMAKOGIANNI C. SIMSERIDES and G. P. TRIBERIS Phil. Mag. 93, 2729-2748(2013)
INVITED REVIEWS
1. Magnetothermoelectric transport in the fractionaL quantum Hall effect regime,
V.C. KARAVOLAS and G.P. TRIBERIS, Recent Res. Devel. Physics 4 (2003) : 485-522 ISBN: 81-7895-078-2
Transworld Research Network)
2. Looking for the Maximum Mobility in Semiconductor Heterostructures,
G.P.TRIBERIS Invited Review Article, Progress in Condensed Matter Research, pp 221-281
(2006, Edr, Das M.P., Nova Science Publishers, Inc., NY, USA )
3. Optical Properties and Charge Transport in Quantum Wires
G.P.TRIBERIS Invited Review Article, Journal of Computational and Theoretical Nanoscience, 4, 1-20 ( 2007 )
4. DNA in the material world: Electrical properties and Nano-applications,
G. P. TRIBERIS and M. DIMAKOGIANNI, Recent Patents ïn Nanotech. 3 (2009), 135-153
5. Near-Field Optical Properties of Quantum Dots, Applications and Perspectives,
A. ZORA, G.P.TRIBERIS and C. SIMSERIDES, 5, 188-224 (2011)