Department of Chemical Engineering, Texas A&M University, College Station, TX, USA.
J Mol Model. 2013 Oct;19(10):4419-32. doi: 10.1007/s00894-013-1956-z. Epub 2013 Aug 7.
We calculate the interactions of two atomic layer deposition (ALD) reactants, trimethylaluminium (TMA) and tetrakis(ethylmethylamino) hafnium (TEMAH) with the hydroxylated Ga-face of GaN clusters when aluminum oxide and hafnium oxide, respectively, are being deposited. The GaN clusters are suitable as testbeds for the actual Ga-face on practical GaN nanocrystals of importance not only in electronics but for several other applications in nanotechnology. We find that TMA spontaneously interacts with hydroxylated GaN; however it does not follow the atomic layer deposition reaction path unless there is an excess in potential energy introduced in the clusters at the beginning of the optimization, for instance, using larger bond lengths of various bonds in the initial structures. TEMAH also does not interact with hydroxylated GaN, unless there is an excess in potential energy. The formation of a Ga-N(CH3)(CH2CH3) bond during the ALD of HfO2 using TEMAH as the reactant without breaking the Hf-N bond could be the key part of the mechanism behind the formation of an interface layer at the HfO2/GaN interface.
我们计算了两种原子层沉积(ALD)反应物——三甲基铝(TMA)和四(乙基甲基氨基)铪(TEMAH)与 GaN 团簇的羟基化 Ga 面相互作用的情况,当分别沉积氧化铝和氧化铪时。GaN 团簇是实际 Ga 面的合适测试平台,对于实际 GaN 纳米晶体具有重要意义,不仅在电子学中,而且在纳米技术的其他几个应用中也是如此。我们发现 TMA 会自发地与羟基化 GaN 相互作用;但是,除非在优化开始时在团簇中引入多余的势能,例如,在初始结构中使用各种键的更大键长,否则它不会遵循原子层沉积反应途径。除非存在多余的势能,否则 TEMAH 也不会与羟基化 GaN 相互作用。在用 TEMAH 作为反应物进行 HfO2 的 ALD 时,形成 Ga-N(CH3)(CH2CH3)键而不打破 Hf-N 键,这可能是在 HfO2/GaN 界面形成界面层的机制的关键部分。
