Effects of methyl substitution on room-temperature chemisorption of para-xylene on Si(100)2×1 and modified surfaces: a thermal desorption and DFT study

“…The chemical reactivity of the methyl group in toluene was supported by the first principles calculation studies by Costanzo et al [12,13]. A study by Li et al employed a combination of low-energy electron diffraction (LEED), Auger electron spectroscopy (AES), thermal desorption, and DFT calculations to specifically examine the adsorption of para-xylene (1, 4-dimethylbenzene) and noted that this hydrocarbon adsorbs very similarly to benzene on the Si(100)-2×1 substrate [114]. In a contrast with the studies of Coulter et al [113], no vibrational spectroscopy investigation was undertaken by this group; however, a deuterium-substitution approach confirmed that while some of para-xylene molecules desorb intact at 400 and 470 K (from two different geometries of surface adducts), the majority of these molecules are strongly chemisorbed after the loss of hydrogen from methyl groups [114].…”

Chemical manipulation of multifunctional hydrocarbons on silicon surfaces

“…The chemical reactivity of the methyl group in toluene was supported by the first principles calculation studies by Costanzo et al [12,13]. A study by Li et al employed a combination of low-energy electron diffraction (LEED), Auger electron spectroscopy (AES), thermal desorption, and DFT calculations to specifically examine the adsorption of para-xylene (1, 4-dimethylbenzene) and noted that this hydrocarbon adsorbs very similarly to benzene on the Si(100)-2×1 substrate [114]. In a contrast with the studies of Coulter et al [113], no vibrational spectroscopy investigation was undertaken by this group; however, a deuterium-substitution approach confirmed that while some of para-xylene molecules desorb intact at 400 and 470 K (from two different geometries of surface adducts), the majority of these molecules are strongly chemisorbed after the loss of hydrogen from methyl groups [114].…”

Chemical manipulation of multifunctional hydrocarbons on silicon surfaces

Influence of Functional Groups in Substituted Aromatic Molecules on the Selection of Reaction Channel in Semiconductor Surface Functionalization

Yellow-emitting colloidal suspensions of silicon nanocrystals: Fabrication technology, luminescence performance and application prospects