| 1 - 8 |
Optical-energy properties of CdSe thin film
Ilchuk H, Petrus R, Kashuba A, Semkiv I, Zmiiovska E |
| 1 - 8 |
Optical-energy properties of CdSe thin film
Ilchuk H, Petrus R, Kashuba A, Semkiv I, Zmiiovska E |
| 9 - 19 |
Barothermal Diels-Alder functionalization of multi-walled carbon nanotubes
Diyuk VE, Vakaliuk AV, Grishchenko LM, Mischanchuk OV, Brazhnyk DV, Lisnyak VV |
| 9 - 19 |
Barothermal Diels-Alder functionalization of multi-walled carbon nanotubes
Diyuk VE, Vakaliuk AV, Grishchenko LM, Mischanchuk OV, Brazhnyk DV, Lisnyak VV |
| 20 - 33 |
Amination of brominated nanoporous activated carbon beads for the preparation of CO(2)adsorbents
Grishchenko LM, Tsapyuk GG, Novichenko NS, Mischanchuk OV, Yatsymyrskiy AV, Boldyrieva OY, Diyuk VE |
| 20 - 33 |
Amination of brominated nanoporous activated carbon beads for the preparation of CO(2)adsorbents
Grishchenko LM, Tsapyuk GG, Novichenko NS, Mischanchuk OV, Yatsymyrskiy AV, Boldyrieva OY, Diyuk VE |
| 34 - 38 |
Electric-field induced micromagnetic structural elements motion in thin ferrite garnet films
Koronovskyy V |
| 34 - 38 |
Electric-field induced micromagnetic structural elements motion in thin ferrite garnet films
Koronovskyy V |
| 39 - 50 |
Cr content-dependent modification of structural, magnetic properties and bandgap in green synthesized Co-Cr nano-ferrites
Tiwari P, Kane SN, Deshpande UP, Tatarchuk T, Mazaleyrat F, Rachiy B |
| 39 - 50 |
Cr content-dependent modification of structural, magnetic properties and bandgap in green synthesized Co-Cr nano-ferrites
Tiwari P, Kane SN, Deshpande UP, Tatarchuk T, Mazaleyrat F, Rachiy B |
| 51 - 56 |
Stabilization of polystyrene by styrylquinoline containing methacrylates
Kharchenko O, Smokal V, Krupka O, Virych P, Kutsevol N |
| 51 - 56 |
Stabilization of polystyrene by styrylquinoline containing methacrylates
Kharchenko O, Smokal V, Krupka O, Virych P, Kutsevol N |
| 57 - 62 |
Liquid crystal material with gold nanoparticles as optical sensors active medium for the amino acids detection
Mykytyuk ZM, Sushynskyi OE, Prystai TV, Kremer IP, Ivakh MS, Zaichenko AS, Shevchuk OM |
| 57 - 62 |
Liquid crystal material with gold nanoparticles as optical sensors active medium for the amino acids detection
Mykytyuk ZM, Sushynskyi OE, Prystai TV, Kremer IP, Ivakh MS, Zaichenko AS, Shevchuk OM |
| 63 - 70 |
Development of nanosized oxide composites for catalytic CO oxidation
Lutsenko LV, Oleksenko LP, Ripko OP, Fedorenko GV |
| 63 - 70 |
Development of nanosized oxide composites for catalytic CO oxidation
Lutsenko LV, Oleksenko LP, Ripko OP, Fedorenko GV |
| 71 - 81 |
The multi-component relaxation combination of proton magnetization in biological tissues magnetic resonance investigations
Netreba AV, Komarov AO, Kyiashko YO |
| 71 - 81 |
The multi-component relaxation combination of proton magnetization in biological tissues magnetic resonance investigations
Netreba AV, Komarov AO, Kyiashko YO |
| 82 - 89 |
Magneto-nematic coupled dynamics in ferromagnetic nematic liquid crystals under magnetic field
Korostil AM, Krupa MM |
| 82 - 89 |
Magneto-nematic coupled dynamics in ferromagnetic nematic liquid crystals under magnetic field
Korostil AM, Krupa MM |
| 90 - 96 |
Metastable states in high carbon C-(Fe, Ni, Co) films obtained by three-electrode ion-plasma sputtering
Ryabtsev S, Bashev V, Kushnerov O, Kutseva N, Antropov S |
| 90 - 96 |
Metastable states in high carbon C-(Fe, Ni, Co) films obtained by three-electrode ion-plasma sputtering
Ryabtsev S, Bashev V, Kushnerov O, Kutseva N, Antropov S |
| 97 - 110 |
Percolation characteristics of multi-polymer composites with different ratios of nanocarbon fillers
Perets YS, Lazarenko OA, Sivoloshsky OA, Vovchenko LL, Matzui LY |
| 97 - 110 |
Percolation characteristics of multi-polymer composites with different ratios of nanocarbon fillers
Perets YS, Lazarenko OA, Sivoloshsky OA, Vovchenko LL, Matzui LY |
| 111 - 118 |
Phenomena induced by UV irradiation in PbMoO(4)single crystal
Bochkova TM, Trubitsyn MP, Volnyanskii MD, Bondar DS, Volnyanskii DM |
| 111 - 118 |
Phenomena induced by UV irradiation in PbMoO(4)single crystal
Bochkova TM, Trubitsyn MP, Volnyanskii MD, Bondar DS, Volnyanskii DM |
