Search Results

1 - 7 of 7 items :

  • "electronic structure" x
  • Introductions and Overviews x
Clear All
Determination of temperature dependent parameters of zero-phonon line in photo-luminescence spectrum of silicon-vacancy centre in CVD diamond thin films

. Potocký, T. Ižák, M. Varga and A. Kromka,” Influence of gas chemistry on Si-V color centers in diamond films”, physica status solidi (b), vol. 252, No. 11, 2015, pp. 2580-2584. [17] A. Gali and J. R. Maze,” Ab initio study of the split silicon- vacancy defect in diamond: Electronic structure and related properties”, Physical Review, vol. 88, No. 23, pp. 2013,. [18] L. J. Rogers, K. D. Jahnke, M. W. Doherty, A. Dietrich, L. P. McGuinness, C. Müller, T. Teraji, H. Sumiya, J. Isoya, N. B. Manson and F. Jelezko” Electronic structure of the

Open access
Formation of Acid Mine Drainage Water at Sb (Au) Deposit Pezinok

, M., ROJKOVIČ, I., ANDRÁŠ, P., HANAS, P. Ore mineralisation of the Malé Karpaty Mts. (Western Carpathians). Geologica Carpathica, 1992, 43, 5, pp. 275-286. CHOVAN, M., KHUN, M., VILINOVIČ, V., ŠUCHA, V., TRTÍKOVÁ, S. Mineralógia, petrografia a geochémia Au - As - Sb mineralizácie v štôlni Trojárová. Univerzita Komenského, Bratislava - Geologický prieskum, Spišská Nová Ves, 1994, Manuscript, 83 p. CRUNDWEL, F. K. The influence of the electronic structure of solids on the anodic dissolution and leaching of

Open access
Performance Enhancement of Organic Light–Emitting Diodes Using Electron–Injection Materials of Metal Carbonates

Layers, Appl. Phys. Lett. 89 (2006), 1111-1114. [16] BLOCHWITZ, J.-FRITZ, T.-PFEIFFER, M.-LEO, K.- ALLOWAY, D. M.-LEE, P. A.-ARMSTRONG, N. R. : Interface Electronic Structure of Organic Semiconductors with Controlled Doping Levels, Org. Electro. 2 (2001), 97-104. [17] HONG, J. W.-OH, D. H.-KIM, C. H.-KIM, G. Y.-KIM, T. W. : Efficiency Enhancement of the Organic Light-Emitting Diodes by Oxygen Plasma Treatment of the ITO Substrate, J. of Ceram. Process. Resear. 13 (2012), 193-197. [18] HONG, J.W.-KIM, C. H.-HAN, H. S

Open access
Optical properties of zinc titanate perovskite prepared by reactive RF sputtering

of amorphous materials the interband region,”, Appl.Phys.Lett. , vol. 69, 1996, pp. 371-373 and erratum Appl.Phys.Lett. , vol. 69, 1996, p. 2137. [21] X.-C. Zhang, C.-M. Fan, Z.-H. Liang and P.-D. Han, “Electronic structures and optical properties of ilmenite-type hexagonal ZnTiO 3 ”, Acta Phys.-Chim.Sin. , vol. 27, 2011, pp. 47–51. [22] G. Battilana, A. Bottino, G. Capannelli and P. Nanni, “The preparation of porous perovskite membranes using BaTiO 3 nanopowders”, J.Mat.Sci. , vol. 37, 2002, pp. 4343–4347. [23] T. C. Choy Effective medium

Open access
Influence of substrate material on spectral properties and thermal quenching of photoluminescence of silicon vacancy colour centres in diamond thin films

(2000), pp. 1349-1356. [10] E. Neu, C. Hepp, M. Hauschild, S. Gsell, M. Fischer, H. Sternschulte, D. Steinmüller-Nethl, M. Schreck and C. Becher, “Low-temperature investigations of single silicon vacancy colour centres diamond”, New Journal of Physics vol. 15, no. 4 (2013) pp. 43005. [11] L. J. Rogers, K. D. Jahnke, M. W. Doherty, A. Dietrich, L. P. Mcguinness, C. Müller, T. Teraji, H. Sumiya, J. Isoya, N. B. Manson and F. Jelezko, “Electronic structure of the negatively charged silicon-vacancy center diamond”, Physical Review vol. B89, no. 23 (2014

Open access
Enhanced Photocatalytic Properties of Ag-Loaded N-Doped Tio2 Nanotube Arrays

. (2016). A facile fabrication of hierarchical Ag nanoparticles-decorated N-TiO2 with enhanced photocatalytic hydrogen production under solar light. Int. J. Hydrogen Energy, 41, (5), 3446-3455. [31] Lan M., Zhang Y., Wang P. N. (2008). First-principles study of the hydrogen doping influence on the geometric and electronic structures of N-doped TiO2. Chem. Phys. Lett., 458, 341-345. [32] Dong P., Wang Y., Cao B., Xin S., Guo L.(2013). Ag3PO4/reduced graphite oxide sheets nanocomposites with highly enhanced visible light photocatalytic activity and stability

Open access
Molecular Dimerisation in a Multilayer Adsorption Phase on Homogeneous Surfaces of a Solid Adsorbent

in a one-component mobile adsorption phase on energetically homogeneous adsorbents. Adsorpt Sci Technol. 1997;15(9):695-705; 5) Garbacz JK. Association of one-component mobile adsorbate molecules on energetically homogeneous solid adsorbent. Colloid Surface A. 1998;136(3):321-8; 6) Kiselev AV. Non-specific and specific interactions of molecules of different electronic structures with solid surfaces. Discuss Faraday Soc. 1965;40:205-18; 7) Brunauer S, Emmett PH, Teller E. Adsorption of Gases in Multimolecular Layers. J Am Chem Soc. 1938

Open access