Advances in triple-phase catalysis for energy and environmental applications
Xiaoying Li, Jinwei Xu, Yusheng Ye, Baoliang Chen, Xin Xiao
Abstract
reduction, and oxygen reduction, focusing on their mechanisms, architecture optimization, and influential factors. Finally, we discuss future directions in triple-phase catalysis to deepen process understanding, enhance performance, and reduce costs. This review aims to inspire and guide future research in triple-phase catalysis for more sustainable energy and environmental applications.
Topics & Concepts
CatalysisNanotechnologyGreenhouse gasBiochemical engineeringPhase (matter)Heterogeneous catalysisProcess (computing)Environmental scienceSustainable energyHydrogen productionProcess engineeringCarbon fibersInterface (matter)Characterization (materials science)Sustainable developmentGas phaseMaterials scienceChemical processChemistryEnergy managementComputer scienceLife-cycle assessmentMoleculeIonic bondingEnergy (signal processing)Water splittingRenewable energyElectrocatalysts for Energy ConversionCatalysts for Methane ReformingCO2 Reduction Techniques and Catalysts