Remote-Plasma-Assisted Deposition of Pentacene Layer Using Atomic-Hydrogen

结晶过程及技术期刊(英文) Pub Date : 2014-01-02 DOI:10.4236/JCPT.2014.41002
S. Yamauchi, T. Minakuchi, Miyuki Onodera
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Abstract

Pentacene thin layers were deposited on Si with the native oxide at 80°C by remote-plasma-assisted deposition (RPAD) using hydrogen-plasma cell to supply atomic hydrogen radicals. The deposition rate was increased by RPAD comparing to that by non-excited hydrogen gas supply whereas thermal evaporation rate of pentacene from crucible was same in the both process. DFM and XRD studies showed the grain laterally grew in the thin film phase with the size above 10 μm by RPAD. First-principles molecular orbital calculations suggested pentacene is evaporated from crucible as the trimer or larger cluster but atomic hydrogen penetrated into the cluster enhances cracking of pentacene clusters to the monomer.
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原子氢远程等离子体辅助沉积并五苯层
采用远程等离子体辅助沉积(RPAD)技术,在80℃的温度下,利用氢等离子体电池提供原子氢自由基,在Si表面沉积并五苯薄层。与非激发式供氢相比,RPAD法提高了沉积速率,但两种方法对并五苯的热蒸发速率相同。DFM和XRD研究表明,RPAD使晶粒横向生长在尺寸大于10 μm的薄膜相中。第一性原理分子轨道计算表明,并五苯是作为三聚体或更大的团簇从坩埚中蒸发出来的,但原子氢渗透到团簇中,使并五苯团簇裂解为单体。
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来源期刊
结晶过程及技术期刊(英文)
结晶过程及技术期刊(英文)
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