• Korean Journal of Materials Research
• /
• v.10 no.9
• /
• pp.624-628
• /
• 2000

As a power durable-electrode in SAW filter, Al-1%Cu/tungsten nitride multi-layer thin film was fabricated by magnetron sputtering process. Tungsten nitride films had the amorphous phase at the nitrogen ratio, R, ranging from 10~40%. The amorphization could be controlled by nitrogen ratio, R= $N_2$/($N_2$+Ar) as a sputtering process parameter. Residual stress in tungsten nitride abruptly decreased with the formation of amorphous phase. Al-1%Cu thin film was deposited on the amorphous tungsten nitride. After the multi-layed thin film was annealed for 4 hours at 453K, the resistivity decreased as $3.6{\mu}{\Omega}-cm$, which was due to grain growth reduced crystal defects.

• Proceedings of the Materials Research Society of Korea Conference
• /
• 1999.11a
• /
• pp.44-44
• /
• 1999

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
• /
• 1994.11a
• /
• pp.160-163
• /
• 1994

Tungsten and Tungsten Nitride thin films deposited by RF and DC sputtering and the resistivity of these films was measured. We deposited tungsten and tungsten nitride films by RF and DC sputtering at various conditions and derived equations that determines the resistivity and sheet resistivity by stabilizing the basic theory. We investigated properties of the resistivity and sheet resistivity of theme films under various conditions like temperature of substrate, flow rate of the argon gas and content of nitrogen from nitrogen-argon mixtures

• Korean Journal of Materials Research
• /
• v.10 no.1
• /
• pp.29-33
• /
• 2000

The amorphous tungsten nitrides, WNx, film could be fabricated by reactive sputtering process. The nitrogen concentration for the amorphization ranges from 10 at% to 40at%. The amorphous $W_{67}N_{33}$ film was crystallized into low resistivity $\alpha$-tungsten phase with equiaxed grains and excess nitrogen after the rapid thermal annealing for 1min at 1273K, which was similar to the resistivity of the sputtered pure tungsten film. The excess nitrogen was depleted from $\alpha$-tungsten crystals and then segregated at $\alpha$-tungsten/poly-Si interface. The segregated nitrogen has favored the formation of the homogeneous diffusion barrier layer comprised of silicon nitride, $Si_3N_4$, nano-crystals, which undertaken the inhibition of the high resistivity tungsten silicide reaction.

• Electrical & Electronic Materials
• /
• v.8 no.2
• /
• pp.196-203
• /
• 1995

We presented Tungsten and Tungsten Nitride thin films deposited by RF and DC sputtering. It deposited at various conditions that determining the resistivity and sheet resistivity by stabilizing the basic theory. We investigated properties of the resistivity and sheet resistivity of these films under various conditions, temperature of substrate, flow rate of the argon gas and content of nitrogen from nitrogen-argon mixtures. As the temperature of substrate increased and the flow rate of the argon gas decreased, the resistivities of these films reduced by structural transformation. We found that these resistivities were depend on the temperature of substrate, flow rate and electric power. Very highly resistive tungsten films obtained at 10W RF power. On the contrary, we found that films deposited by DC sputtering, from which very lowly resistive tungsten films were obtained. Tungsten nitride thin films deposited by reactive DC sputtering and the resistivities of these films increased as the content of nitrogen gas increased from nitrogen-argon mixture. And also we found the results show very good agreement, compared with experimental data.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
• /
• 1997.11a
• /
• pp.94-97
• /
• 1997

We investigated the sheet resistance properties of tungsten nitride thin films deposited by RF and DC sputtering system. It deposited at various conditions that determine the sheet resistance. The properties of the sheet resistance of these films were measured under various conditions. Sheet resistance analysed under the flow rate of the argon gas and contents of nitrogen from nitrogen-argon gas mixtures. We found that these sheet resistance were largely depend on the temperature of substrate, gas flow rate and RF power. Very high and low sheet resistance of tungsten films obtained by DC sputtering. As the increase of contents of nitrogen gas obtained from nitrogen-argon gas mixture, tungsten nitride thin films deposited by the reactive DC sputtering and the sheet resistance of these films were increased.

• Korean Journal of Materials Research
• /
• v.8 no.2
• /
• pp.147-153
• /
• 1998

Tungsten nitride is very attractive as absorber for X-ray lithographic mask and as a diffusion barrier for interconnecting metallization in Si VLSI technology. Microstructure of tungsten nitride films prepared by RF magnetron sputtering has been investigated as a function of deposition parameter. The crystal structure of sputtered films on silicon nitride membrane depends strongly on the NJAr gas flow ratio(0~18%1, gas pressure(l0~43mTorr). RF power (60~150W), target-substrate distance(4~8cm). Tungsten nitride films deposited at the $N_2/Ar$ gas flow ratio(- 10%). gas pressure(~10mmTorr), RF power(~150W) and target-substrate distance(6cm) are amorphous, but at other conditions are almost rough -surfaced polycrystalline. Amorphous films are very smooth($3.1\AA$ rms) and expected to be excellent absorber for X-ray mask.

• Bulletin of the Korean Chemical Society
• /
• v.31 no.8
• /
• pp.2416-2418
• /
• 2010

• Journal of the Korean Magnetics Society
• /
• v.18 no.1
• /
• pp.32-35
• /
• 2008

Thermally stable diffusion barrier of tungsten carbon nitride(W-C-N) and of tungsten boron carbon nitride(W-B-C-N) thin films have studied to investigate the impurity behaviors of boron and nitrogen. In this paper we newly deposited tungsten boron carbon nitride(W-B-C-N) thin film for various $W_2B$ target power on silicon substrate. The impurities of the 100nm-thick W-C-N and W-B-C-N thin films provide stuffing effect for preventing the inter-diffusion between W-C-N or W-B-C-N thin films and silicon during the high temperature($700^{\circ}C{\sim}1000^{\circ}C$) annealing process.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
• /
• 2007.11a
• /
• pp.87-88
• /
• 2007

반도체 소자가 초고집적화 되어감에 따라 반도체 공정에서 선폭은 줄어들고 박막은 다층화 되어가고 있다. 이와 같은 제조 공정 하에서는 Si 기판과 금속 박막간의 확산이 커다란 문제로 부각되어 왔다. 특히 Cu는 높은 확산성에 의하여 Si 기판과 접합에서 많은 확산에 의한 문제가 발생하게 되며, 또한 선폭이 줄어듦에 따라 고열이 발생하여 실리콘으로 spiking이 발생하게 된다. 이러한 확산을 방지하기 위하여 이 논문에서는 Tungsten - Carbon - Nitrogen (W-C-N)에 Boron (B)을 첨가하였고, Boron 타겟 power을 조절하여 다양한 조성을 가지는 W-B-C-N 확산방지막을 제작하여 각 조성에 따른 증착률을 조서하였고 $1000^{\circ}C$까지 열처리하여 그 비저항을 측정하여 각 특성을 확인하였다.