First Principles Study of Reactions in Alucone Growth: the Role of the Organic Precursor

Abstract: Organic-inorganic hybrid materials are a unique class of materials with properties driven by the organic and inorganic components, making them useful for flexible devices. Molecular layer deposition (MLD) offers novel pathways for the fabrication of such hybrids by using inorganic metal precursors and the vast range of organic molecules with tunable properties. To investigate and understand the mechanism of growth a combination of theoretical and experimental data is needed. In this contribution, we present a … Show more

“…The hydroxylated Al2O3 surface terminated with one methyl group (MMA-Al2O3) that results from the adsorption of trimethylaluminium (TMA) on the Al2O3 surface was taken from our previous work with alucones. [37] We performed fundamental investigations on the interactions between the post-TMA pulse methyl-terminated Al2O3 surface and a selection of aromatic molecules with very different chemical character and these are hydroquinone (HQ), p-phenylenediamine (PD) and 4-aminophenol (AP), Figure 1. This set of aromatic molecules allows us to examine the reactivity of hydroxyl (OH) and amino (NH2) groups towards TMA as well as the preferred orientation of the organic species.…”

“…It was also found that the reaction energy for TMA with NH2 or NO2 functional groups is considerably less favourable than with OH. To investigate the double reaction phenomenon for the aromatic molecules in more detail, we examine interactions of the Al2O3 surface terminated with two surface bound Al(CH3) species (2MMA-Al2O3), used in our previous work [37], with HQ, PD and AP molecules in the upright and flat lying configuration. Minimising double reactions of the organic precursor is considered an important advantage of using stiff aromatic molecules as organic precursors.…”

“…Density functional theory (DFT) has proven to be a powerful tool that allows us to explore and understand the reactions between the organometallic precursors and organic molecules that lead to the formation of metalcones and to address aspects of MLD experiments. [32,35,36,37] In ref 32 DFT calculations were used to explore the growth mechanism of magnesium containing hybrid films known as "magnesicone" through the reaction of ethylene glycol (EG) and glycerol (GL) at MgCp-terminated MgO as a model system. This study shows that while the ligand elimination process is favourable for both organic molecules, EG prefers to orient in a flat configuration and interacts at the MgO surface and GL species prefer to lie in an upright position.…”

Role of Terminal Groups in Aromatic Molecules on the Growth of Al2O3-Based Hybrid Materials

“…The hydroxylated Al2O3 surface terminated with one methyl group (MMA-Al2O3) that results from the adsorption of trimethylaluminium (TMA) on the Al2O3 surface was taken from our previous work with alucones. [37] We performed fundamental investigations on the interactions between the post-TMA pulse methyl-terminated Al2O3 surface and a selection of aromatic molecules with very different chemical character and these are hydroquinone (HQ), p-phenylenediamine (PD) and 4-aminophenol (AP), Figure 1. This set of aromatic molecules allows us to examine the reactivity of hydroxyl (OH) and amino (NH2) groups towards TMA as well as the preferred orientation of the organic species.…”

“…It was also found that the reaction energy for TMA with NH2 or NO2 functional groups is considerably less favourable than with OH. To investigate the double reaction phenomenon for the aromatic molecules in more detail, we examine interactions of the Al2O3 surface terminated with two surface bound Al(CH3) species (2MMA-Al2O3), used in our previous work [37], with HQ, PD and AP molecules in the upright and flat lying configuration. Minimising double reactions of the organic precursor is considered an important advantage of using stiff aromatic molecules as organic precursors.…”

“…Density functional theory (DFT) has proven to be a powerful tool that allows us to explore and understand the reactions between the organometallic precursors and organic molecules that lead to the formation of metalcones and to address aspects of MLD experiments. [32,35,36,37] In ref 32 DFT calculations were used to explore the growth mechanism of magnesium containing hybrid films known as "magnesicone" through the reaction of ethylene glycol (EG) and glycerol (GL) at MgCp-terminated MgO as a model system. This study shows that while the ligand elimination process is favourable for both organic molecules, EG prefers to orient in a flat configuration and interacts at the MgO surface and GL species prefer to lie in an upright position.…”

Role of Terminal Groups in Aromatic Molecules on the Growth of Al2O3-Based Hybrid Materials