Formation of high moisture and dopant diffusion resistivity silicon nitride films by catalytic-CVD method

A. Izumi; H. Sato; H. Matsumura

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Formation of high moisture and dopant diffusion resistivity silicon nitride films by catalytic-CVD method

机译：催化化学汽相淀积法形成高湿掺杂掺杂扩散电阻率氮化硅膜

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High resistivity for moisture and dopant diffusion silicon nitride films are prepared by catalytic-CVD method. In this method, SiH_4 and NH_3 gases are decomposed by the catalytic-cracking reactions with a heated tungsten catalyzer placed near substrates, and so that silicon nitride films are formed without any help from plasma nor photochemical excitation at the temperature as high as 300℃. The properties of catalytic-CVD silicon nitride films are investigated. It is found that, 1) stoichiometric silicon nitride film whose refractive index is 2.0 shows high moisture resistance, 2) ultrathin silicon nitride film (equivalent oxide thickness; 3.5nm) blocks B diffusion even 1000℃ annealing.

机译：通过催化CVD法制备高电阻率的湿气和掺杂剂扩散氮化硅膜。在这种方法中，SiH_4和NH_3气体通过在靠近基板的加热钨催化剂的催化裂化反应而分解，从而形成了氮化硅膜，而没有受到等离子体或高达300℃的光化学激发的帮助。研究了催化CVD氮化硅膜的性能。结果发现：1）折射率为2.0的化学计量氮化硅膜具有较高的耐湿性; 2）超薄氮化硅膜（等效氧化物厚度; 3.5nm）甚至在1000℃退火下仍能阻止B扩散。

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《Journal de Physique, IV: Proceedings of International Conference》 |2001年第3期|共6页
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A. Izumi; H. Sato; H. Matsumura;
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4. Formation of high moisture and dopant diffusion resistivity silicon nitride films by catalytic-CVD method [C] . A. Izumi, H. Sato, H. Matsumura, European conference on chemical vapor deposition . 2001

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Formation of high moisture and dopant diffusion resistivity silicon nitride films by catalytic-CVD method

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