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http://dx.doi.org/10.3740/MRSK.2008.18.4.169

Structural and Electrical Properties of Amorphous 2Ti4O12 Thin Films Grown on TiN Substrate  

Park, Yong-Jun (Electronic Components and Materials Division, Korea Institute of Ceramic Engineering and Technology)
Paik, Jong-Hoo (Electronic Components and Materials Division, Korea Institute of Ceramic Engineering and Technology)
Lee, Young-Jin (Electronic Components and Materials Division, Korea Institute of Ceramic Engineering and Technology)
Jeong, Young-Hun (Electronic Components and Materials Division, Korea Institute of Ceramic Engineering and Technology)
Nahm, Sahn (Department of Materials Science and Engineering, Korea University)
Publication Information
Korean Journal of Materials Research / v.18, no.4, 2008 , pp. 169-174 More about this Journal
Abstract
The structural and electrical properties of amorphous $BaSm_2Ti_4O_{12}$ (BSmT) films on a $TiN/SiO_2/Si$ substrate deposited using a RF magnetron sputtering method were investigated. The deposition of BSmT films was carried out at $300^{\circ}C$ in a mixed oxygen and argon ($O_2$ : Ar = 1 : 4) atmosphere with a total pressure of 8.0 mTorr. In particular, a 45 nm-thick amorphous BSmT film exhibited a high capacitance density and low dissipation factor of $7.60\;fF/{\mu}m2$ and 1.3%, respectively, with a dielectric constant of 38 at 100 kHz. Its capacitance showed very little change, even in GHz ranges from 1.0 GHz to 6.0 GHz. The quality factor of the BSmT film was as high as 67 at 6 GHz. The leakage current density of the BSmT film was also very low, at approximately $5.11\;nA/cm^2$ at 2 V; its conduction mechanism was explained by the the Poole-Frenkel emission. The quadratic voltage coefficient of capacitance of the BSmT film was approximately $698\;ppm/V^2$, which is higher than the required value (<$100\;ppm/V^2$) for RF application. This could be reduced by improving the process condition. The temperature coefficient of capacitance of the film was low at nearly $296\;ppm/^{\circ}C$ at 100 kHz. Therefore, amorphous BSmT grown on a TiN substrate is a viable candidate material for a metal-insulator-metal capacitor.
Keywords
MIM capacitor; thin film; microwave properties; $BaSm_2Ti_4O_{12}$; VCC;
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