Highly selective oxidation of methane to formaldehyde on tungsten trioxide by lattice oxygen
Yingying Fan(Guangzhou University), Peiyun Zhang(Guangzhou University), Rongxia Lu(Guangzhou University), Yuheng Jiang(Peking University), Guoliang Pan(Guangzhou University), Wei Wang(Guangzhou University), Xianglian Zhu(Guangzhou University), Shilei Wei(Guangzhou University), Dongxue Han(Guangzhou University), Li Niu(Guangzhou University)
Cited by 26Open Access
Abstract
Photocatalytic oxidation of methane into formaldehyde in high yield and selectivity remains a grand challenge due to the ineluctable intermediates. Here, we report that a {001}, {010} and {100} facets modified tungsten trioxide photocatalyst enables an intermediate-free oxidation of methane into formaldehyde with 99.4% selectivity. A durable formaldehyde yield of 4.61 mmol g−1 can be achieved after irradiation for 30 h. Mechanism studies disclose that surface defect and reactive lattice oxygen atom are crucial for the selectivity and productivity promotion. This work provides a valid paradigm for efficient conversion of methane to formaldehyde.
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