All hot wire CVD TFT’s with high depostion rate silicon nitride (3 nm/s)

Publication date

2008

Authors

Schropp, R. E.I.ISNI 000000008094399X
Nishizaki, S.
Houweling, Z.S.ISNI 0000000396884009
Verlaan, V.ISNI 0000000387277717
van der Werf, C.H.M.
Matsumura, H.

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Abstract

Using the hot wire (HW) chemical vapor deposition (CVD) method for the deposition of silicon nitride (SiNx) and amorphous silicon (a-Si:H) thin films we have achieved high deposition rates for device quality materials up to 7.3 nm/s and 3.5 nm/s, respectively. For thin films of SiN1.3, deposited at 3 nm/s, the mass-density of the material reached a very high value of 3.0 g/cm3. The silane utilization rate for this fast process is 77%. The high mass-density was consistent with the low 16BHF etch rate of 7 nm/min. We tested this SiN1.3 in ‘‘all hot wire” thin film transistors (TFTs), along with a-Si:H material in the protocrystalline regime at 1 nm/s. Analysis shows that these ‘‘all hot wire” TFTs have a Vth = 1.7–2.4 V, an on/off ratio of 106, and a mobility of 0.4 cm2/V s after a forming gas anneal. We therefore conclude that the HWCVD provides SiNx materials with dielectric properties at least as good as PECVD does, though at a much higher deposition rate and better gas utilization rates.

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Schropp, R E I, Nishizaki, S, Houweling, Z S, Verlaan, V, van der Werf, C H M & Matsumura, H 2008, 'All hot wire CVD TFT’s with high depostion rate silicon nitride (3 nm/s)', Solid State Electronics, vol. 52, no. 3, pp. 427-431.