首页|Highly selective photocatalytic oxidation of methane to methyl hydroperoxide
Highly selective photocatalytic oxidation of methane to methyl hydroperoxide
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Partial oxidation of methane into primary oxidation products with high value remains a challenge.In this work,photocatalytic oxidation of methane(CH4)with high methyl hydroperoxide(CH3OOH)selectivity is achieved using pure titanium oxide(TiO2)without any cocatalyst at room temperature and atmospheric pressure.The CH3OOH production rate can reach up to 2050± 88 μmol·g-1·h-1 at pH ≈ 7.0 with 100%selectivity in the liquid product.The stable reaction cycle can reach more than 30 times.This low-cost system achieves superior CH4 conversion activity and selectivity compared with similar work.The energy of hydrogen peroxide(H2O2)to adsorbed hydroperoxyl radical(*OOH)has a significantly lower reaction energy than conversion to adsorbed hydroxyl radical(*OH)on the(210)surface of the TiO2.The*OOH preferentially combines with methyl radical(·CH3)to form the most energetically favorable CH3OOH.The mild oxidative environment of this system prevents the reduction of CH3OOH to CH3OH or over-oxidation of CH4,which ensures the final CH3OOH with high selectivity and stability.This work provided a low-cost but highly efficient method to achieve partial oxidation with superior selectivity,i.e.,to convert CH4 into high-value chemicals.
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