PdCu nanoalloy decorated photocatalysts for efficient and selective oxidative coupling of methane in flow reactors.
Xiyi LiChao WangJianlong YangYouxun XuYi YangJiaguo YuJuan J DelgadoNatalia MartsinovichXiao SunXu-Sheng ZhengWei-Xin HuangJunwang TangPublished in: Nature communications (2023)
Methane activation by photocatalysis is one of the promising sustainable technologies for chemical synthesis. However, the current efficiency and stability of the process are moderate. Herein, a PdCu nanoalloy (~2.3 nm) was decorated on TiO 2 , which works for the efficient, stable, and selective photocatalytic oxidative coupling of methane at room temperature. A high methane conversion rate of 2480 μmol g -1 h -1 to C 2 with an apparent quantum efficiency of ~8.4% has been achieved. More importantly, the photocatalyst exhibits the turnover frequency and turnover number of 116 h -1 and 12,642 with respect to PdCu, representing a record among all the photocatalytic processes (λ > 300 nm) operated at room temperature, together with a long stability of over 112 hours. The nanoalloy works as a hole acceptor, in which Pd softens and weakens C-H bond in methane and Cu decreases the adsorption energy of C 2 products, leading to the high efficiency and long-time stability.
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