Digermane Deposition on Si(100) and Ge(100): from Adsorption Mechanism to Epitaxial Growth

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• 作者：Don Dick ; Jean-Francois Veyan ; R. C. Longo ; Stephen McDonnell ; Josh B. Ballard ; Xiaoye Qin ; Hong Dong ; James H. G. Owen ; John N. Randall ; Robert M. Wallace ; Kyeongjae Cho ; Yves J. Chabal
• 刊名：Journal of Physical Chemistry C
• 出版年：2014
• 出版时间：January 9, 2014
• 年：2014
• 卷：118
• 期：1
• 页码：482-493
• 全文大小：735K
• ISSN：1932-7455

文摘

Controlled fabrication of nanometer-scale devices such as quantum dots and nanowires requires an understanding of the initial chemisorption mechanisms involved in epitaxial growth. Vapor phase epitaxy can provide controlled deposition when using precursors that are not reactive with the H-terminated surfaces at ambient temperatures. For instance, digermane (Ge₂H₆) has potential as such a precursor for Ge ALE on Si(100) surfaces at moderate temperatures; yet, its adsorption configuration and subsequent decomposition pathways are not well understood. In situ Fourier transform infrared spectroscopy and first principles calculations reveal that Ge₂H₆ chemisorbs through a 尾-hydride elimination mechanism, forming Ge₂H₅ and H on both Si(100)-(2 脳 1) and Ge(100)-(2 脳 1) surfaces, instead of the previously proposed Ge鈥揋e bond breaking mechanism, and subsequently decomposes into an ad-dimer. The resulting coverage of Ge after a saturation exposure is estimated to be about 0.3 monolayers. Interestingly, the decomposition of adsorbed Ge₂H₅ on Si(100) is faster than Si₂H₅ on Ge(100) at 173 K. The desorption temperature of hydrogen on Si(100) is shown to depend on the Ge coverage, falling from 698 K for 1/4 ML Ge on Si(100) to 573 K for a nearly full Ge coverage, consistent with H desorption on Ge(100). Furthermore, hydrogen is observed to migrate from Ge to Si, prior to desorption. This property opens the door for selective growth of Ge on patterned H-terminated Si surfaces.