[47] | The origin of nondispersive Raman lines in the D-band region for ferrocene@HiPco SWCNTs transformed at high temperatures (Kuzmany, H., Shi, L., Pichler, T., Kürti, J., Koltai, J., Hof, F. and Saito, T.), In Phys. Status Solidi B, volume 252, 2015. |
[46] | Raman spectra of hydrocarbons formed in carbon nanotubes – a theoretical study (Kürti, Jenő, Koltai, János, Gyimesi, Bálint and Kuzmany, Hans), In Phys. Status Solidi B, volume 252, 2015. |
[45] | Hydrocarbon chains and rings: bond length alternation in finite molecules (Kürti, Jenő, Koltai, János, Gyimesi, Bálint and Zólyomi, Viktor), In Theor Chem Acc, volume 134, 2015. |
[44] | Toward Synthesis and Characterization of Unconventional C66 and C68 Fullerenes inside Carbon Nanotubes (Zólyomi, Viktor, Peterlik, Herwig, Bernardi, Johannes, Bokor, Mónika, László, István, Koltai, János, Kürti, Jenő, Knupfer, Martin, Kuzmany, Hans, Pichler, Thomas and Simon, Ferenc), In J. Phys. Chem. C, volume 118, 2014. |
[43] | Theoretical vibrational optical activity of chiral carbon nanoparticles: Fullerenes and carbon nanotubes (Nagy, Péter R., Biró, László, Koltai, János, Surján, Péter R., Szabados, Ágnes and Kürti, Jenő), In Phys. Status Solidi B, volume 251, 2014. |
[42] | Stokes–anti-Stokes contribution to double resonance Raman processes in graphene (Kukucska, G., Koltai, J. and Kürti, J.), In Phys. Status Solidi B, volume 251, 2014. |
[41] | I-band-like non-dispersive inter-shell interaction induced Raman lines in the D-band region of double-walled carbon nanotubes (Gyimesi, Bálint, Koltai, János, Zólyomi, Viktor and Kürti, Jenő), In Appl. Phys. A, 2014. |
[40] | Observation of conduction electron spin resonance in boron-doped diamond (Szirmai, Péter, Fábián, Gábor, Koltai, János, Náfrádi, Bálint, Forró, László, Pichler, Thomas, Williams, Oliver A., Mandal, Soumen, Bäuerle, Christopher and Simon, Ferenc), In Phys. Rev. B, volume 87, 2013. |
[39] | Raman spectra of titanium dioxide (anatase, rutile) with identified oxygen isotopes (16, 17, 18) (Frank, Otakar, Zukalova, Marketa, Laskova, Barbora, Kürti, Jenö, Koltai, János and Kavan, Ladislav), In Phys. Chem. Chem. Phys., volume 14, 2012. |
[38] | Carbon nanobamboo: Junctions between left and right handed single walled carbon nanotubes (Rusznyák, Á., Koltai, J., Zólyomi, V. and Kürti, J.), In physica status solidi (b), volume 249, 2012. |
[37] | Enhanced NMR Relaxation of Tomonaga-Luttinger Liquids and the Magnitude of the Carbon Hyperfine Coupling in Single-Wall Carbon Nanotubes (Kiss, A., Pályi, A., Ihara, Y., Wzietek, P., Simon, P., Alloul, H., Zólyomi, V., Koltai, J., Kürti, J., Dóra, B. and Simon, F.), In Phys. Rev. Lett., volume 107, 2011. |
[36] | Vibrational Signatures in the Infrared Spectra of Single- and Double-Walled Carbon Nanotubes and Their Diameter Dependence (Pekker, Á., Botos, Á., Rusznyák, Á., Koltai, J., Kürti, J. and Kamarás, K.), In J. Phys. Chem. Lett., volume 2, 2011. |
[35] | Oxygen-isotope labeled titania: Ti18O2 (Kavan, Ladislav, Zukalova, Marketa, Ferus, Martin, Kürti, Jenő, Koltai, János and Civiš, Svatopluk), In Phys. Chem. Chem. Phys., volume 13, 2011. |
[34] | Resonance Raman spectroscopy of graphite and graphene (Zólyomi, V., Koltai, J. and Kürti, J.), In physica status solidi (b), volume 248, 2011. |
[33] | Density of states deduced from ESR measurements on low-dimensional nanostructures; benchmarks to identify the ESR signals of graphene and SWCNTs (Szirmai, Péter, Fábián, Gábor, Dóra, Balázs, Koltai, János, Zólyomi, Viktor, Kürti, Jenő, Nemes, Norbert M., Forró, László and Simon, Ferenc), In physica status solidi (b), volume 248, 2011. |
[32] | Characteristics of bamboo defects in peapod-grown double-walled carbon nanotubes (Zólyomi, V., Koltai, J., Visontai, D., Oroszlány, L., Rusznyák, Á., László, I. and Kürti, J.), In Phys. Rev. B, volume 82, 2010. |
[31] | Unusual Raman dispersion for D and 2D lines in high-curvature single-walled carbon nanotubes revealed by C$_{13}$ isotope substitution (Simon, F, Zólyomi, V, Pfeiffer, R, Kuzmany, H, Koltai, J and Kürti, J), In Physical Review B, American Physical Society, volume 81, 2010. |
[30] | Functionalization of graphene with transition metals (Zólyomi, V., Rusznyák, Á., Koltai, J., Kürti, J. and Lambert, C. J.), In physica status solidi (b), volume 247, 2010. |
[29] | Catastrophe optics of caustics in single and bilayer graphene: Fine structure of caustics (Péterfalvi, Csaba, Pályi, András, Rusznyák, Ádám, Koltai, János and Cserti, József), In physica status solidi (b), volume 247, 2010. |
[28] | An Anomalous Enhancement of the Ag(2) Mode in the Resonance Raman Spectra of C60 Embedded in Single-Walled Carbon Nanotubes during Anodic Charging (Kalbac, Martin, Zólyomi, Viktor, Rusznyák, Ádám, Koltai, János, Kürti, Jenő and Kavan, Ladislav), In The Journal of Physical Chemistry C, American Chemical Society, volume 114, 2010. |
[27] | Using line group theory for the symmetry assignment of the phonons of single walled carbon nanotubes (Rusznyák, Á, Koltai, J, Zólyomi, V and Kürti, J), In Physica Status Solidi B-Basic Solid State Physics, volume 246, 2009. |
[26] | Two component doping of fullerene-cubane cocrystals (Kürti, J, Koltai, J, Zólyomi, V and Pekker, S), In Physica Status Solidi B-Basic Solid State Physics, volume 246, 2009. |
[25] | Junctions of left- and right-handed chiral carbon nanotubes nanobamboo (Koltai, J, Rusznyák, Á, Zólyomi, V, Kürti, J and László, I), In Physica Status Solidi B-Basic Solid State Physics, volume 246, 2009. |
[24] | Identifying the electron spin resonance of conduction electrons in alkali doped SWCNTs (Galambos, M, Fabian, G, Simon, F, Ciric, L, Forro, L, Korecz, L, Rockenbauer, A, Koltai, J, Zólyomi, V, Rusznyák, Á, Kürti, J, Nemes, N M, Dóra, B, Peterlik, H, Pfeiffer, R, Kuzmany, H and Pichler, T), In Physica Status Solidi B-Basic Solid State Physics, volume 246, 2009. |
[23] | Single-wall carbon nanotubes: spintronics in the Luttinger liquid phase (Dóra, B, Gulácsi, M, Rusznyák, Á, Koltai, J, Zólyomi, V, Kürti, J and Simon, F), In Physica Status Solidi B-Basic Solid State Physics, volume 246, 2009. |
[22] | Theoretical study of the electronic structure and the totally symmetric vibrations of selected CoMoCat carbon nanotubes (Kürti, J, Koltai, J and Zólyomi, V), In physica status solidi b, volume 245, 2008. |
[21] | Theoretical study of the electronic structure of fullerene-cubane cocrystals (Zólyomi, V, Koltai, J, Kürti, J and Pekker S), In Physical Review B, APS, volume 78, 2008. |
[20] | Electron spin resonance in alkali doped SWCNTs (Simon, F, Galambos, M, Quintavalle, D, Nafradi, B, Forro, L, Koltai, J, Zólyomi, V, Kürti, J, Nemes, N M, Rummeli, M H, Kuzmany, H and Pichler, T), In physica status solidi b, volume 245, 2008. |
[19] | The electronic band structure of fullerene-cubane cocrystals (Zólyomi, V, Koltai, J, Kürti, J and Pekker S), In physica status solidi b, volume 245, 2008. |
[18] | Phonon dispersion of small diameter semiconducting chiral carbon nanotubes - a theoretical study (Koltai, J, Zólyomi, V and Kürti, J), In physica status solidi b, volume 245, 2008. |
[17] | Electron Spin Resonance Signal of Luttinger Liquids and Single-Wall Carbon Nanotubes (Dóra, B, Gulácsi, M, Koltai, J, Zólyomi, V and Kürti, J and Simon, F), In Physical Review Letters, APS, volume 101, 2008. |
[16] | Phonons of single walled carbon nanotubes (Zólyomi, V, Koltai, J, Kürti, J and Kuzmany, H), Chapter in DFT calculations on fullerenes and carbon nanotubes (Basiuk, V, Irle, S, eds.), Signpost Publisher, 2008. |
[15] | In situ Raman spectroelectrochemistry of single-walled carbon nanotubes: Investigation of materials enriched with (6,5) tubes (Kavan, L, Frank, O, Green, A A, Hersam, M C, Koltai, J, Zólyomi, V, Kürti, J and Dunsch, L), In journal of Physical Chemistry C, volume 112, 2008. |
[14] | Intershell interaction in double walled carbon nanotubes: Charge transfer ; orbital mixing (Zólyomi, V, Koltai, J, Rusznyák, Á, Kürti, J, Gali, Á and Simon, F, Kuzmany, H, Szabados, Á and Surján, P R), In Physical Review B, volume 77, 2008. |
[13] | Fine tuning the charge transfer in carbon nanotubes via the interconversion of encapsulated molecules (Shiozawa, H, Pichler, T, Kramberger, C, Grüneis, A, Knupfer, M, Buchner, B, Zólyomi, V, Koltai, J, Kürti, J, Batchelor, D and Kataura, H), In Physical Review B, volume 77, 2008. |
[12] | Curvature effects in the D* band of small diameter carbon nanotubes (Kürti, J, Zólyomi, V, Koltai, J, Simon, F, Pfeiffer, R and Kuzmany, H), In physica status solidi b, volume 244, 2007. |
[11] | Nonthermal broadening in the conductance of double quantum dot structures (Oroszlány, L, Kormányos, A, Koltai, J, Cserti, J and Lambert, C J), In Physical Review B, volume 76, 2007. |
[10] | Andreev drag effect via magnetic quasiparticle focusing in normal-superconductor nanojunctions (Polinák, P K, Lambert, C J, Koltai, J and Cserti, J), In Physical Review B, volume 74, 2006. |
[9] | The role of Van Hove singularities in disorder induced Raman scattering (Kürti, J, Zólyomi, V and Koltai, J), Chapter in Electronic Properties of Novel Nanostructures, AIP Conference Proceedings (Kuzmany, H, Fink, J, Mehring, M, Roth, S, eds.), Melville, volume 786, 2005. |
[8] | Hibrid rendszerek transzport tulajdonságai (Koltai, J), PhD thesis, ELTE-TTK, Komplex Rendszerek Fizikája Tanszék, 2004. |
[7] | Andreev bound states for a superconducting-ferromagnetic box (Koltai, J, Cserti, J and Lambert, C J), In Physical Review B, volume 69, 2004. |
[6] | Non-local current correlations in ferromagnet/superconductor nanojunction (Lambert, C J, Koltai, J and Cserti, J), Chapter in Towards the Controllable Quantum States, Mesoscopic Superconductivity and Spintronics (Takayanagi, H, Nitta, J., eds.), World Scientific, 2003. |
[5] | Excitation spectra for Andreev billiards of box and disk geometries (Cserti, J, Bodor, A, Koltai, J and Vattay, G), In Physical Review B, volume 66, 2002. |
[4] | Proximity-induced subgaps in Andreev billiards (Cserti, J, Kormányos, A, Kaufmann, Z, Koltai, J and Lambert, C J), In Physical Review Letters, volume 89, 2002. |
[3] | Negative length orbits in normal-superconductor billiard systems (Cserti, J, Vattay, G, Koltai, J, Taddei, F and Lambert, C J), In Physical Review Letters, volume 85, 2000. |
[2] | Periodikus mezoszkopikus struktúrák vezetési tulajdonságai (Vattay, G, Cserti, J, Szálka, G and Koltai, J), In Proceedings of the Hungarian Academy of Sciences, 1999. |
[1] | Rendezett-rendezetlen átmenet szennyezett, diszkrét nanodrótok vezetőképességében (Koltai, J), Master's thesis, ELTE-TTK, Komplex Rendszerek Fizikája Tanszék, 1999. |