Thermal chemistry of biacetyl on Si(100)

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“…Despite the fact that no reaction barrier was predicted for the [4 + 2] addition, the desorption of 2,3-butanedione at 263 K suggested that chemisorption competed with a simple desorption even from a very reactive Si(100)-2×1 substrate. The 263 K desorption peak shifted to 285 K for higher doses but was clearly distinguishable from the multilayer desorption reported at 185 K for 12.5 L dose [119]. This behavior is very similar to that reported by Teplyakov group for vinyltrimethylsilane [224], nitroalkanes [227] and nitrobenzene [224].…”

“…Further theoretical work ascribed this absorption band to the alkene stretch and confirmed the ease of the heteroDiels-Alder reaction [169]. The thermal chemistry of 2,3-butanedione on Si(100)-2×1 has been studied starting with a temperature as low as 160 K by Armstrong et al [119] and this chemistry seems to be rather similar to other reactive compounds. Despite the fact that no reaction barrier was predicted for the [4 + 2] addition, the desorption of 2,3-butanedione at 263 K suggested that chemisorption competed with a simple desorption even from a very reactive Si(100)-2×1 substrate.…”

“…As described above in Section 3.2, the Diels-Alder analogue has been well-established on a Si(100)-2×1 for butadienes and 1,3-cyclohexadiene and later confirmed for other structurally similar compounds. Interestingly, the [4 + 2] adduct was ruled out for 2,3-butanedione based mainly on the observation of a vibrational band at 1670 cm −1 , initially assigned to a ν C=O mode [119]. Further theoretical work ascribed this absorption band to the alkene stretch and confirmed the ease of the heteroDiels-Alder reaction [169].…”

Chemical manipulation of multifunctional hydrocarbons on silicon surfaces

“…Despite the fact that no reaction barrier was predicted for the [4 + 2] addition, the desorption of 2,3-butanedione at 263 K suggested that chemisorption competed with a simple desorption even from a very reactive Si(100)-2×1 substrate. The 263 K desorption peak shifted to 285 K for higher doses but was clearly distinguishable from the multilayer desorption reported at 185 K for 12.5 L dose [119]. This behavior is very similar to that reported by Teplyakov group for vinyltrimethylsilane [224], nitroalkanes [227] and nitrobenzene [224].…”

“…Further theoretical work ascribed this absorption band to the alkene stretch and confirmed the ease of the heteroDiels-Alder reaction [169]. The thermal chemistry of 2,3-butanedione on Si(100)-2×1 has been studied starting with a temperature as low as 160 K by Armstrong et al [119] and this chemistry seems to be rather similar to other reactive compounds. Despite the fact that no reaction barrier was predicted for the [4 + 2] addition, the desorption of 2,3-butanedione at 263 K suggested that chemisorption competed with a simple desorption even from a very reactive Si(100)-2×1 substrate.…”

“…As described above in Section 3.2, the Diels-Alder analogue has been well-established on a Si(100)-2×1 for butadienes and 1,3-cyclohexadiene and later confirmed for other structurally similar compounds. Interestingly, the [4 + 2] adduct was ruled out for 2,3-butanedione based mainly on the observation of a vibrational band at 1670 cm −1 , initially assigned to a ν C=O mode [119]. Further theoretical work ascribed this absorption band to the alkene stretch and confirmed the ease of the heteroDiels-Alder reaction [169].…”

Chemical manipulation of multifunctional hydrocarbons on silicon surfaces

“…Thus the existence of bridging formate containing two equivalent O-atoms may be excluded. The peak at 532.1 eV is assigned to the oxygen attached to the silicon, in excellent agreement with the binding energy of CH 3 O-Si formed through the dissociative reaction of methanol on Si(1 1 1)-7 · 7 [29]. Compared to the physisorption O 1s spectrum, a large binding energy shift of the hydroxyl oxygen atom suggests the breakage of the O-H bond.…”

The structures of physisorbed and chemisorbed formic acid on Si(111)-7×7

“…Finally, recent investigations have shown that these cycloaddition reactions on the Si(001) surface are not limited solely to alkenes. We have demonstrated the possibility of a cycloaddition reaction involving a NN bond, while White et al have shown that a CO bond may also undergo a [2 + 2] addition on Si(001) …”

Adsorption of Phenyl Isothiocyanate on Si(001):  A 1,2-Dipolar Surface Addition Reaction