Order and Melting in Self-Assembled Alkanol Monolayers on Amorphous SiO2

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• 作者：Julia Haddad ; Hans-Georg Steinr眉ck ; Htay Hlaing ; Sumit Kewalramani ; Diego Pontoni ; Harald Reichert ; Bridget M. Murphy ; Sven Festersen ; Benjamin Runge ; Olaf M. Magnussen ; Andreas Magerl ; Moshe Deutsch ; Benjamin M. Ocko
• 刊名：Journal of Physical Chemistry C
• 出版年：2015
• 出版时间：August 6, 2015
• 年：2015
• 卷：119
• 期：31
• 页码：17648-17654
• 全文大小：431K
• ISSN：1932-7455

文摘

Molecular self-assembly is a key to wide-ranging nano- and microscale applications in numerous fields. Understanding its underlying molecular level science is therefore of prime importance. This study resolves the 脜-scale structure of the earliest and simplest self-assembled monolayer (SAM), octadecanol on amorphous-SiO₂-terminated Si(001) substrate, and determines the structure鈥檚 temperature evolution. At low temperatures lateral hexagonal order exists, with close-packed, surface-normal molecules. At 鈭?2 掳C above the alkanol鈥檚 bulk melting, a fully reversible disordering transition occurs to a novel 鈥渟tretched liquid鈥?phase, laterally disordered, but only 鈭?5% thinner SAM than in the crystalline phase. The SAM persists to 鈮?00 掳C. A thermodynamic model yields here a headgroup鈥搒ubstrate bond energy 鈭?0% lower than on crystalline sapphire, highlighting the importance of the substrate鈥檚 order, and near-epitaxy, for the SAM鈥檚 ordering and stability.