151 to 160 of 991 Results
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 99.0 KB -
MD5: ef0eb460a4091ba6b7fa432689caf6ad
The AFM image of the discontinuous multilayer systems [Fe(2)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 143.3 KB -
MD5: 13e746067f2611d3021e746bbc4f172f
The AFM image of the discontinuous multilayer systems [Fe(2)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 156.7 KB -
MD5: b73b93977a88ef1a1cf63214d7d6f70b
The AFM image of the discontinuous multilayer systems [Fe(7)/HfO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 128.9 KB -
MD5: fac9f45b4cf308610d9604ea577b67a2
The AFM image of the discontinuous multilayer systems [Fe(7)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 116.5 KB -
MD5: cd4f0026e8d2773952c354855defef5b
The AFM image of the discontinuous multilayer systems [Fe(7)/SiO2(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
May 12, 2026 -
Atomic force microscopy images of [Fe/I]n discontinious multilayers (I = SiO2, MgO, HfO2)
JPEG Image - 99.4 KB -
MD5: 7688afadf618cb2574a8bacc23786b60
The AFM image of the discontinuous multilayer systems [Fe(2)/MgO(3)]10/S, which was prepared by sequential magnetron sputtering on the sapphire substrate at room temperature. |
Apr 2, 2026 - Sumy State University
Малетова, Ольга, 2026, "Дані про призначення покарань за правопорушення, пов’язані з декларуванням, та незаконним збагаченням (за ст. 366-2, 366-3, 368-5 КК України) у 2020-2025 роках.", https://doi.org/10.48788/DVUA/MAU1WO, DataverseUA, V1, UNF:6:w2G8Y/aMixIZZmbcQHnX5w== [fileUNF]
Цей набір даних містить детальну інформацію про судову практику щодо кримінальних проваджень, відкритих за статтями 366-2, 366-3 та 368-5 Кримінального кодексу України, які стосуються неподання декларації, подання завідомо недостовірних відомостей у декларації особи, уповноважено... |
Tabular Data - 25.1 KB - 16 Variables, 51 Observations - UNF:6:w2G8Y/aMixIZZmbcQHnX5w==
Дані про призначення покарань за правопорушення, пов’язані з декларуванням, та незаконним збагаченням (за ст. 366-2, 366-3, 368-5 КК України) у 2020-2025 роках |
Apr 1, 2026
M.S. Poliakov Institute of Geotechnical Mechanics of the National Academy of Sciences of Ukraine is the country's leading mining research institution. It was founded in 1967 to solve fundamental problems of mineral mining in complex geological and mining conditions – coal, ferrou... |
Mar 27, 2026 - SPM&RS Centre
Smolyak Svitlana; Karbivskyy Volodymyr; Zagorodniy Yuriy, 2026, "X-ray photoelectron and Nuclear Magnetic Resonance studies of sol-gel glass doped with 5% Ga", https://doi.org/10.48788/DVUA/MNVHJZ, DataverseUA, V1
The electronic structure and structural characteristics of 5% Ga-doped sol-gel bioactive glass (type 45S5) were studied by X-ray photoelectron spectroscopy (XPS) and nuclear magnetic resonance (NMR) methods. ³¹P NMR spectra of bioactive materials indicate the formation of both is... |