Pivac Branko, Dubček Pavo, Dasović Jasna, Popović Jasminka, Radić Nikola, Bernstorff Sigrid, Zavašnik Janez, Vlahovic Branislav
Materials Physics , R. Bošković Institute , Bijenička 54 , Zagreb 10000 , Croatia.
Elettra-Sincrotrone Trieste , SS 14, Km 163.5, in AREA Science Park , Basovizza 34149 , Trieste , Italy.
Inorg Chem. 2018 Dec 3;57(23):14939-14952. doi: 10.1021/acs.inorgchem.8b02760. Epub 2018 Nov 14.
Superstructures are explored that were obtained by multilayer magnetron deposition at room temperature of 20 SiO and SiO:Ge bilayers, each 2 × 4 nm thick, and subsequently annealed in inert N atmosphere at different temperatures in the range of 500-750 °C. The structural and optical changes induced by annealing and the formation and growth of Ge nanoparticles (nps) from early clusters to their full growth and final dissolution were studied by the simultaneous grazing-incidence small- and wide-angle X-ray scattering, transmission electron microscopy, and (time-resolved) photoluminescence (PL). It is shown that in as-deposited multilayers aggregation of small clusters already occurred, and the clusters were reasonably well intercorrelated in the lateral plane. During annealing at T = 550 °C or higher temperatures, Ge nps start to form and remain partly amorphous at lower T but crystallize completely at about 600 °C. At even higher temperatures, the Ge nps dissolve and Ge diffuses out almost completely, leaving voids in the SiO matrix. Visible PL from the samples was detected and attributed to defects in the nps/matrix interface layers rather than to the nps itself because PL persisted even after Ge nps dissolution.
研究了通过在室温下用多层磁控溅射沉积20个SiO和SiO:Ge双层结构(每个双层结构厚2×4nm),随后在500-750°C范围内的不同温度下在惰性N气氛中退火而获得的超结构。通过同步掠入射小角和广角X射线散射、透射电子显微镜以及(时间分辨)光致发光(PL)研究了退火引起的结构和光学变化以及Ge纳米颗粒(nps)从早期团簇到其完全生长和最终溶解的形成和生长过程。结果表明,在沉积态的多层结构中已经发生了小团簇的聚集,并且这些团簇在横向平面上具有较好的相互关联性。在550°C或更高温度下退火时,Ge纳米颗粒开始形成,在较低温度下部分保持非晶态,但在约600°C时完全结晶。在更高温度下,Ge纳米颗粒溶解,Ge几乎完全扩散出去,在SiO基体中留下空隙。检测到样品的可见PL,并将其归因于纳米颗粒/基体界面层中的缺陷,而不是纳米颗粒本身,因为即使在Ge纳米颗粒溶解后PL仍然存在。
