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Time of flight secondary ion mass spectrometry study of silicon nanoclusters embedded in thin silicon oxide layers

2003; American Institute of Physics; Volume: 82; Issue: 1 Linguagem: Inglês

10.1063/1.1534937

1520-8842

Michele Perego, S. Ferrari, Sabina Spiga, Emiliano Bonera, M. Fanciulli, V. Soncini,

Semiconductor materials and interfaces

Si nanoclusters have been formed by 5 keV Si+ implantation at a fluence of 1×1016 atoms/cm2 into a 200 Å thin thermally grown SiO2 film on Si (100), followed by thermal treatment at 1000 °C with different annealing times. All the annealed samples show a broad photoluminescence spectrum with increasing intensity as function of annealing time. The use of a dual beam time of flight secondary ion mass spectrometry in negative mode with Cs+ ions at low energy for sputtering allows us to observe variations in Si− signal due to excess of silicon atoms introduced by implantation. With the high sensitivity achieved using this instrumental configuration it is possible to follow Sin− signals which give information about the chemical enviroment of the Si atoms. The possibility of studying the time evolution of the nucleation and growth of nanoclusters has been investigated.