ENHANCED FORMATION OFSiNANOCRYSTALS INSiO2BY LIGHT-FILTERING RAPID THERMAL ANNEALING

Chen, Xiaobo; Chen, Guangping

ENHANCED FORMATION OFSiNANOCRYSTALS INSiO2BY LIGHT-FILTERING RAPID THERMAL ANNEALING

Xiaobo Chen () and Guangping Chen
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Xiaobo Chen: School of Physics and Mech-tronic Engineering, Sichuan University of Arts and Science, Dazhou 635000, P. R. China
Guangping Chen: School of Physics and Mech-tronic Engineering, Sichuan University of Arts and Science, Dazhou 635000, P. R. China

Surface Review and Letters (SRL), 2015, vol. 22, issue 04, 1-5

Abstract: In this work, silicon-rich oxide (SRO) films with designed thickness of ~100 nm were deposited by a bipolar pulse and radio frequency magnetron co-sputtering. For comparison, the samples were then treated in a nitrogen atmosphere by conventional rapid thermal annealing (CRTA) or light-filtering rapid thermal annealing (LRTA) at 900–1100°C for 2 min. Raman spectra, grazing incident X-ray diffraction (XRD), transmission electron microscopy (TEM), Hall measurements, and current density–voltage measurements were carried out to analyze the microstructural and electrical properties of samples. Compared with the control sample using CRTA method, the crystalline volume fraction and number density ofSinanocrystals(SiNCs)in silicon oxide prepared by LRTA were greatly increased. The quantum effects of the short wave-length light (less than 800 nm) of these tungsten halogen lamps during the rapid thermal annealing process have negative effects on the formation ofSiNCsinSiO2films.SiNCswith crystal volume fraction of 73%, average size of 2.53 nm, and number density of ~1.1 × 1012cm-2embedded in the amorphousSiO2matrix can be formed by LRTA at 1100°C. Enhancement of more than one order of magnitude in conductivity and higher current density were obtained from the LRTA annealed sample compared to the CRTA annealed sample. The improvements in conductivity and current density were attributed to the high densitySiNCs. Our results show that the LRTA method is a suitable annealing tool for the formation ofSiNCin thinSiOxfilms.

Keywords: Silicon quantum dots; silicon oxide; rapid thermal processing (search for similar items in EconPapers)
Date: 2015
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DOI: 10.1142/S0218625X15500493

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