Dissociation of methanol on hydroxylated TiO2-B (1 0 0) surface: Insights from first principle DFT calculation

Weijia Liu, Jian Guo Wang, Xiaojing Guo, Wei Fang, Mingjie Wei, Xiaohua Lu, Linghong Lu

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17 引用 (Scopus)

摘要

The adsorption of methanol on hydroxylated TiO2-B (1 0 0) surface with bridging and terminal hydroxyl groups has been studied by first principle calculations. On both clean and hydroxylated surfaces with bridging OH group (OHbr), the O-H bond scission is the most favorable dissociation of methanol and the C-O bond scission is also feasible. This indicates the OHbr has little influence on the adsorption of methanol. The terminal OH group (OHt) plays a major role in the C-H scission of methanol, which is important for the applications associated with the direct use of hydrogen, such as in situ hydrogenation, and hydrogen generation via the photocatalytic reaction. The dissociative adsorption of methanol via C-H scission, which is an endothermic adsorption on other TiO 2 surfaces, is identified as exothermic adsorption with adsorption energy in the range of -1.54 eV to -1.91 eV around OHt on TiO 2-B (1 0 0) surface. The lowest activation barrier for C-H scission is ∼0.80 eV, which is lower than the release heat of molecular adsorption. Moreover, the hydrogen atoms in methanol are easily transferred to the OH t and then move to nearby O2c sites to regenerate the hydroxyl group. This proton migration process could result in extra stable chemi-sorption of methanol with an adsorption energy as low as -2.23 eV, which is above twice that of methanol molecularly adsorbed on the surface. Thus, the proton channel feature of OHt on the surface is borne out by our calculations.

源语言英语
页(从-至)32-40
页数9
期刊Catalysis Today
165
1
DOI
出版状态已出版 - 16 5月 2011

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