Catalysts, Journal Year: 2025, Volume and Issue: 15(3), P. 287 - 287

Published: March 19, 2025

The global reliance on fossil fuels, particularly natural gas, underscores the urgency of developing sustainable methods for methane (CH4) and carbon dioxide (CO2) conversion. Methane, which constitutes 95% is a critical feedstock fuel source. However, its high bond dissociation energy volatility pose challenges large-scale utilization transport. Current research emphasizes catalytic plasma-assisted conversion CH4 CO2 into value-added products such as methanol, higher hydrocarbons, organic oxygenates. Advancements in these technologies aim to overcome obstacles operating temperatures, coking, low product selectivity while addressing methane’s environmental impact, leakage during extraction distribution significantly contributes warming. Plasma-assisted has emerged promising approach, leveraging electron impact processes generate reactive species that facilitate transformation at near-room temperatures. integration catalysts within plasma environments enhances reaction pathways, yields, by modifying properties surface interactions. This review comprehensively discusses various investigated efficiency. We attempt highlight recent progress valorization, with focus mechanisms formation, catalyst modifications, their discharge characteristics. insights gained could pave way scalable, energy-efficient solutions produce fuels chemicals, thereby contributing efforts cycle fixation climate change mitigation.

Language: Английский