Ivan Kazadojev scite author profile

We present a study of magnesium and calcium precursor molecules in order to predict which of them would be more successful in atomic layer deposition (ALD) of metal oxides. Precursor chemistry plays a key role in ALD, since precursors must be volatile, thermally stable, chemisorb on the surface, and react rapidly with existing surface groups. We investigate one aspect of this, surface reactivity between ligands and hydroxyl groups, via a gas-phase model with energetics computed at the level of density functional theory (DFT). The precursors with higher reactivity towards hydrolysis (and thus most potentially useful for ALD) are M(bae), M(Ph-nacnac) 2 , and M(tmtate), which is rationalized as due to strain, particularly in the cyclic ligands bae and tmtate. Calculated trends for Mg and Ca follow each other closely, reflecting the similar chemistry among group 2 metals.

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Electrochemical evaluation of vanadium pentoxide coatings grown by AACVD

Vernardou

Louloudakis

Katsarakis

et al. 2015

Solar Energy Materials and Solar Cells

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Optical characterization of antireflective sol-gel coatings fabricated using dip coating method

Melninkaitis

Juškevičius

Maciulevičius

et al. 2006

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Sol-Gel Synthesis of Modified Silica Anti-Reflecting Coatings

Žalga

Kazadojev

Beganskienė

et al. 2008

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Ivan Kazadojev

Capacitive behavior of Ag doped V2O5 grown by aerosol assisted chemical vapour deposition

Modeling of Precursors for Atomic Layer Deposition of Magnesium and Calcium Oxide

Electrochemical evaluation of vanadium pentoxide coatings grown by AACVD

Optical characterization of antireflective sol-gel coatings fabricated using dip coating method

Sol-Gel Synthesis of Modified Silica Anti-Reflecting Coatings

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