We have investigated the electrical transport and luminescence of Si dots embedded in SiO2. The dots have been obtained by high temperature annealing of silicon rich oxides prepared by chemical vapor deposition. Transmission electron microscopy analysis demonstrates the presence of crystalline Si dots with grain radii down to 1 nm. The data of luminescence and electrical transport appear correlated with the dot size distribution. Moreover, the analysis of the electrical characteristics of metal-oxide-semiconductor capacitors with silicon rich oxide films indicates that such systems may reversibly store charge, thus exhibiting the function of a memory.
Correlation of dot size distribution with luminescence and electrical transport of Si quantum dots embedded in SiO2
S Lombardo;C Bongiorno;C Spinella;A Sciuto;S Privitera
2000
Abstract
We have investigated the electrical transport and luminescence of Si dots embedded in SiO2. The dots have been obtained by high temperature annealing of silicon rich oxides prepared by chemical vapor deposition. Transmission electron microscopy analysis demonstrates the presence of crystalline Si dots with grain radii down to 1 nm. The data of luminescence and electrical transport appear correlated with the dot size distribution. Moreover, the analysis of the electrical characteristics of metal-oxide-semiconductor capacitors with silicon rich oxide films indicates that such systems may reversibly store charge, thus exhibiting the function of a memory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
