Group Publications

1. Kyriakis, A. et al. A UV photodetector based on ordered free standing MWCNT. in Journal of Instrumentation (2020). doi:10.1088/1748-0221/15/01/C01015
2. Filatzikioti, A. et al. Carbon nanotube Schottky type photodetectors for UV applications. Solid State Electron. 151, 27–35 (2019).
3. Balliou, A. et al. Size-dependent single electron transfer and semi-metal-to-insulator transitions in molecular metal oxide electronics. Nanotechnology 29, (2018).
4. Balliou, A. et al. Probing the localization of charge and the extent of disorder through electronic transport on Au nanoparticle-copper phthalocyanine multijunction networks. Phys. Status Solidi Basic Res. 253, (2016).
5. Bolomyti, E. et al. Charge retention analysis of Si implanted and wet oxidized SONOS structures. Microelectron. Eng. 159, (2016).
6. Balliou, A. et al. Low-Dimensional Polyoxometalate Molecules/Tantalum Oxide Hybrids for Non-Volatile Capacitive Memories. ACS Appl. Mater. Interfaces 8, (2016).
7. Balliou, A. et al. Tungsten polyoxometalate molecules as active nodes for dynamic carrier exchange in hybrid molecular/semiconductor capacitors. J. Appl. Phys. 116, (2014).
8. Kyllönen, L. E. P. et al. Electronic transport between Au surface and scanning tunnelling microscope tip via a multipodal cyclodextrin host-metallo-guest supramolecular system. J. Phys. Org. Chem. 25, (2012).
9. Kaloudi-Chantzea, A. et al. Efficient supramolecular synthesis of a robust circular light-harvesting Bodipy-dye based array. Chem. Commun. 48, (2012).
10. Velessiotis, D., Douvas, A. M., Dimitrakis, P., Argitis, P. & Glezos, N. Conduction mechanisms in tungsten-polyoxometalate self-assembled molecular junctions. Microelectron. Eng. 97, (2012).
11. Velessiotis, D. et al. Molecular junctions made of tungsten-polyoxometalate self-assembled monolayers: Towards polyoxometalate-based molecular electronics devices. Microelectron. Eng. 88, (2011).
12. Woszczyna, M. et al. Quantitative force and mass measurements using the cantilever with integrated actuator and deflection detector. Microelectron. Eng. 86, (2009).
13. Šebera, J. et al. Charge carrier mobility in sulphonated and non-sulphonated Ni phthalocyanines: Experiment and quantum chemical calculations. Eur. Phys. J. B 72, (2009).
14. Kapetanakis, E. et al. Hybrid organic-inorganic materials for molecular proton memory devices. Org. Electron. physics, Mater. Appl. 10, (2009).
15. Chaidogiannos, G., Petraki, F., Glezos, N., Kennou, S. & Nešpůrek, S. Low voltage operating OFETs based on solution-processed metal phthalocyanines. Appl. Phys. A Mater. Sci. Process. 96, (2009).
16. Velessiotis, D. et al. Molecular nanodevices based on functionalized cyclodextrins. Phys. Status Solidi Appl. Mater. Sci. 205, (2008).
17. Kapetanakis, E. et al. Molecular storage elements for proton memory devices. Adv. Mater. 20, (2008).
18. Makarona, E. et al. Vertical devices of self-assembled hybrid organic/inorganic monolayers based on tungsten polyoxometalates. Microelectron. Eng. 85, (2008).
19. Douvas, A. M. et al. Polyoxometalate-based layered structures for charge transport control in molecular devices. ACS Nano 2, (2008).
20. Chaidogiannos, G., Petraki, F., Glezos, N., Kennou, S. & Nešpůrek, S. Soluble substituted phthalocyanines for OFET applications. Mater. Sci. Eng. B Solid-State Mater. Adv. Technol. 152, (2008).
21. Papavassiliou, G. C. et al. Some new nickel 1,2-dichalcogenolene complexes as single-component semiconductors. Zeitschrift fur Naturforsch. – Sect. B J. Chem. Sci. 62, (2007).
22. Nešpůrek, S. et al. Soluble phthalocyanines: Perspective materials for electronics. Mol. Cryst. Liq. Cryst. 468, (2007).
23. Glezos, N. et al. Electrical characterization of molecular monolayers containing tungsten polyoxometalates. Microelectron. Eng. 83, (2006).
24. Patsis, G. P., Tsikrikas, N., Raptis, I. & Glezos, N. Electron-beam lithography simulation for the fabrication of EUV masks. Microelectron. Eng. 83, (2006).
25. Velessiotis, D., Ioannou-Sougleridis, V., Chaidogiannos, G. & Glezos, N. Compound polymeric materials in molecular nanodevices: Electrical behavior of zero-dimension semiconducting inorganic molecules embedded in a polymer substrate. J. Phys. Conf. Ser. 10, (2005).
26. Velessiotis, D., Glezos, N. & Ioannou-Sougleridis, V. Tungstate polyoxometalates as active components of molecular devices. J. Appl. Phys. 98, (2005).