1. Formation of stable Si-O-C submonolayers on hydrogenterminated silicon(111) under low-temperature conditions
- Author
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Khung, Y, Ngalim, S, Scaccabarozzi, A, Narducci, D, KHUNG, YIT LUNG, SCACCABAROZZI, ANDREA, NARDUCCI, DARIO, Ngalim, SH, Khung, Y, Ngalim, S, Scaccabarozzi, A, Narducci, D, KHUNG, YIT LUNG, SCACCABAROZZI, ANDREA, NARDUCCI, DARIO, and Ngalim, SH
- Abstract
In this letter, we report results of a hydrosilylation carried out on bifunctional molecules by using two different approaches, namely through thermal treatment and photochemical treatment through UV irradiation. Previously, our group also demonstrated that in a mixed alkyne/alcohol solution, surface coupling is biased towards the formation of Si-O-C linkages instead of Si-C linkages, thus indirectly supporting the kinetic model of hydrogen abstraction from the Si-H surface (Khung, Y. L. et al. Chem. - Eur. J. 2014, 20, 15151-15158). To further examine the probability of this kinetic model we compare the results from reactions with bifunctional alkynes carried out under thermal treatment (<130°C) and under UV irradiation, respectively. X-ray photoelectron spectroscopy and contact angle measurements showed that under thermal conditions, the Si-H surface predominately reacts to form Si-O-C bonds from ethynylbenzyl alcohol solution while the UV photochemical route ensures that the alcohol-based alkyne may also form Si-C bonds, thus producing a monolayer of mixed linkages. The results suggested the importance of surface radicals as well as the type of terminal group as being essential towards directing the nature of surface linkage.
- Published
- 2015