Highly Selective Photocatalytic Aerobic Oxidation of Methane to Oxygenates with Water over W‐doped TiO₂

Citations Over TimeTop 10% of 2022 papers

Abstract

Highly selective conversion of methane to oxygenates with O₂ as a green oxidant remains a great challenge. It is still difficult to suppress the generation of CO_x (x=1, 2) as undesired by-products due to unavoidable overoxidation reaction. Hence, tungsten-doped (W-doped) TiO₂ photocatalysts were designed with a tunable band structure for photocatalytic oxidation of methane to C₁ oxygenates using O₂ at low temperature (30 °C). The W-doping effectively modified the electronic and band structure of pristine TiO₂ to enhance photocatalytic performance. Liquid oxygenates productivity could reach as high as 12.2 mmol g-1 with high selectivity of 99.4 %. Moreover, CO_x selectivity was effectively decreased from 21.2 % over TiO₂ to 0.6 % for W-doped catalyst. Detailed characterizations further disclosed that W-doping not only enhanced light absorption, but also promoted the separation of photo-generated carriers to improve methane conversion. This work provides new insights into the design of highly efficient photocatalysts for methane oxidation.

Related Papers

• → Oxygenates screening for AdvancedPetroleum-Based Diesel Fuels: Part 2. The Effect of Oxygenate Blending Compounds on Exhaust Emissions(2001)94 cited
• → C to H effective ratio as a descriptor for co-processing light oxygenates and CH₄on Mo/H-ZSM-5(2014)9 cited
• Approaches and nature of improving Rh-based catalyst performance for CO hydrogenation to C-2-oxygenates(2006)
• → Oxygenates as Gasoline Blending Components(1992)3 cited
• OXYGENATES FOR THE FUTURE--CONCLUSION: OXYGENATE/HYDROCARBON SHIFT WILL REWRITE GASOLINE RECIPES(1991)