Defective C3N4 frameworks coordinated diatomic copper catalyst: Towards mild oxidation of methane to C1 oxygenates
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作者
SELECTIVE OXIDATION; ROOM-TEMPERATURE; CONVERSION; DENSITY; NANOPARTICLES; PLATINUM; POINTS; ATOMS; O-2; H-2
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刊物名称
Appl. Catal. B-Environ.
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年、卷、文献号
2021, 299, 120682
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关键词
SELECTIVE OXIDATION; ROOM-TEMPERATURE; CONVERSION; DENSITY; NANOPARTICLES; PLATINUM; POINTS; ATOMS; O-2; H-2
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摘要
Mild conversion of CH4 to value-added chemicals remains a grand challenge due to its chemical inertness. We report the N-defective C3N4 confined diatomic Cu (Cu2@C3N4-D) catalysts for the efficient oxidation of CH4 to C1 oxygenates at low temperature. With photo-irradiation, the carbon atoms neighbouring defects of C3N4 can anchor the second Cu by Cu-C2N bonding. Cu2@C3N4-D exhibits C1-oxygenates STY up to 4878 mu mol gcat- 1 h-1 with TOF of 83 h-1 at 50 degrees C, which is 300% higher than that of single atomic catalysts and even better than the reported noble-metal catalysts. The catalyst stability is also proved. Both experiments and computations demonstrate that the diatomic Cu pairs are toughly packed in asymmetrical [N3-Cu]center dot center dot center dot[Cu-C2N] with + 1 charge for Cu, endowing the catalyst with unique synergistic effects on CH4 activation. It provides a simple way to construct active sites with well-controlled atom number and enlightens the defect functionalization for catalyst design.
