| 1 - 12 |
Effect of the strong electron correlation on the spin-resolved electronic structure of the doped crystals Si < B, Fe>, Si < B, Co > and Si < B, Ni>
Syrotyuk SV, Khoverko YM, Shcherban NO, Druzhinin AA |
| 1 - 12 |
Effect of the strong electron correlation on the spin-resolved electronic structure of the doped crystals Si < B, Fe>, Si < B, Co > and Si < B, Ni>
Syrotyuk SV, Khoverko YM, Shcherban NO, Druzhinin AA |
| 13 - 21 |
Electrical conductivity of Li(2)Ge(7)O(15)crystals doped with Al
Koptiev MM, Trubitsyn MP, Volnianskii MD, Plyaka SM, Krivchenko AY |
| 13 - 21 |
Electrical conductivity of Li(2)Ge(7)O(15)crystals doped with Al
Koptiev MM, Trubitsyn MP, Volnianskii MD, Plyaka SM, Krivchenko AY |
| 22 - 29 |
Electrodynamic properties of epoxy composites with mixed filler graphite nanoplatelets + TiO2
Lozitsky OV, Vovchenko LL, Matzui LY, Yakovenko OS, Oliynyk VV |
| 22 - 29 |
Electrodynamic properties of epoxy composites with mixed filler graphite nanoplatelets + TiO2
Lozitsky OV, Vovchenko LL, Matzui LY, Yakovenko OS, Oliynyk VV |
| 30 - 33 |
Electron energy in quantum dots of different configurations
Tovstyuk CC |
| 30 - 33 |
Electron energy in quantum dots of different configurations
Tovstyuk CC |
| 34 - 47 |
Structural transformation caused by crystallization in the Ge-Ga-S(CsCl) glasses
Klym H, Kozdras A, Ingram A, Calvez L |
| 34 - 47 |
Structural transformation caused by crystallization in the Ge-Ga-S(CsCl) glasses
Klym H, Kozdras A, Ingram A, Calvez L |
| 48 - 53 |
Optical absorption by electron states in nanosystem containing dielectric quantum dots
Pokutnyi SI |
| 48 - 53 |
Optical absorption by electron states in nanosystem containing dielectric quantum dots
Pokutnyi SI |
| 54 - 62 |
Formation of molecular Se(2)dimers in semiconductor-doped borosilicate glasses
Azhniuk YM, Lopushansky VV, Gomonnai AV, Zahn DRT |
| 54 - 62 |
Formation of molecular Se(2)dimers in semiconductor-doped borosilicate glasses
Azhniuk YM, Lopushansky VV, Gomonnai AV, Zahn DRT |
| 63 - 76 |
Surface modification of the mild steel by multifunctional self-assembling nanolayers from the natural organic compounds of apricot pomace extract
Vorobyova V, Skiba M, Chygyrynets O |
| 63 - 76 |
Surface modification of the mild steel by multifunctional self-assembling nanolayers from the natural organic compounds of apricot pomace extract
Vorobyova V, Skiba M, Chygyrynets O |
| 77 - 87 |
Preparation and characterization of Ag-doped TiO(2)and its application in catalytic degradation/densification of water pollutants
Skiba M, Vorobyova V, Pivovarov A, Makarshenko N |
| 77 - 87 |
Preparation and characterization of Ag-doped TiO(2)and its application in catalytic degradation/densification of water pollutants
Skiba M, Vorobyova V, Pivovarov A, Makarshenko N |
| 88 - 94 |
Low-temperature study of electrical properties of porous silicon/graphene-based nanostructures
Olenych IB, Monastyrskii LS, Aksimentyeva OI, Eliyashevskyy YI, Girnyk IS, Rudko MS |
| 88 - 94 |
Low-temperature study of electrical properties of porous silicon/graphene-based nanostructures
Olenych IB, Monastyrskii LS, Aksimentyeva OI, Eliyashevskyy YI, Girnyk IS, Rudko MS |
| 95 - 106 |
Properties of materials for resistive RAM based on HfO2(first principles calculations)
Balabai RM, Zalevskyi DV |
| 95 - 106 |
Properties of materials for resistive RAM based on HfO2(first principles calculations)
Balabai RM, Zalevskyi DV |
| 107 - 115 |
Nanosized Ce-doped SnO(2)nanocomposites as perspective materials for adsorption semiconductor sensors
Fedorenko GV, Oleksenko LP, Maksymovych NP, Ripko OP, Skolyar GI |
| 107 - 115 |
Nanosized Ce-doped SnO(2)nanocomposites as perspective materials for adsorption semiconductor sensors
Fedorenko GV, Oleksenko LP, Maksymovych NP, Ripko OP, Skolyar GI |
