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Korean Journal of Materials Research, Vol.21, No.4, 236-241, April, 2011
Spin-on Dielectric 막의 전기적 특성에 미치는 전구체의 영향
Effects of Precursor on the Electrical Properties of Spin-on Dielectric Films
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Polysilazane and silazane-based precursor films were deposited on stacked TiN/Ti/TEOS/Si-substrate by spincoating, then annealed at 150~400oC, integrated further to form the top electrode and pad, and finally characterized. The precursor solutions were composed of 20% perhydro-polysilazane (SiH2NH)n, and 20% hydropolymethyl silazane (SiHCH3NH)n in dibutyl ether. Annealing of the precursor films led to the compositional change of the two chemicals into silicon (di)oxides, which was confirmed by Fourier transform infrared spectroscopy (FTIR) spectra. It is thought that the different results that were obtained originated from the fact that the two precursors, despite having the same synthetic route and annealing conditions, had different chemical properties. Electrical measurement indicated that under 0.6MV/cm, a larger capacitance of 2.776 × 10.11 F and a lower leakage current of 0.4 pA were obtained from the polysilazane-based dielectric films, as compared to 9.457 × 10.12 F and 2.4 pA from the silazane-based film, thus producing a higher dielectric constant of 5.48 compared to 3.96. FTIR indicated that these superior electrical properties are directly correlated to the amount of Si-O bonds and the improved chemical bonding structures of the spin-on dielectric films, which were derived from a precursor without C. The chemical properties of the precursor films affected both the formation and the electrical properties of the spin-on dielectric
film.
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