Single-atom catalysts for nitrogen oxide emission control

“…The growing need for sustainable solutions to global environmental challenges has led to significant research efforts towards innovative technologies that utilise nanocatalysts in a variety of processes such as carbon dioxide (CO 2 ) conversion [1][2][3], NO x amendment [4][5][6], VOCs (volatile organic compounds) combustion [7][8][9], wastewater treatment [10][11][12], organic transformations [13], renewable energy production [14], and many others, as discussed in the comprehensive recent review [15]. Supported catalysts commonly exhibit heterogeneity in terms of their composition and nanostructure influencing their catalytic performance [16].…”

Perspective Applications of Plasma-Deposited Thin Film Nanocatalysts on Structured Supports: From CO₂ Capture to Wastewater Treatment

“…The growing need for sustainable solutions to global environmental challenges has led to significant research efforts towards innovative technologies that utilise nanocatalysts in a variety of processes such as carbon dioxide (CO 2 ) conversion [1][2][3], NO x amendment [4][5][6], VOCs (volatile organic compounds) combustion [7][8][9], wastewater treatment [10][11][12], organic transformations [13], renewable energy production [14], and many others, as discussed in the comprehensive recent review [15]. Supported catalysts commonly exhibit heterogeneity in terms of their composition and nanostructure influencing their catalytic performance [16].…”

Perspective Applications of Plasma-Deposited Thin Film Nanocatalysts on Structured Supports: From CO₂ Capture to Wastewater Treatment

Mechanistic studies on defective hBN-supported metal-nonmetal synergistic catalysis for urea electrosynthesis

Enhancing the resistance of single-atom and cluster catalysts in CO-SCR to water, sulfur, and oxygen via structural engineering