Enhanced Catalytic Reactions at an Air–Liquid–Solid Triphase Interface

Gas reactant involved in heterogeneous catalysis is critical to the development of clean energy, environmental management, health monitoring, and chemical synthesis. However, in traditional heterogeneous catalysis with liquid–solid diphase reaction interfaces, the low solubility and slow transport of gas reactants strongly restrict the reaction efficiency. In this minireview, we summarize recent advances in tackling these drawbacks by designing catalytic systems with an air–liquid–solid triphase joint interface. At the triphase interface, abundant gaseous reactant can directly transport from the air phase to the reaction centre to overcome the limitations of low solubility and slow transport of the dissolved gas in liquid–solid diphase reaction systems. By constructing a triphase interface, the efficiency and/or selectivity of the photocatalytic reactions, enzymatic reactions, and (photo)electrochemical reactions with gaseous reactants oxygen, carbon dioxide, and nitrogen consumption are significantly improved.