Synthesis of polymeric nitrogen with non-thermal radio frequency plasma

“…205 Moreover, the incorporation of different metal atoms leads to a distorted lattice configuration that offers additional degrees of freedom for optimizing the charge or coordination numbers. 206 Therefore, investigating alloy structures is crucial for enhancing the catalytic activity of FZAB.…”

Atomically dispersed multi-site catalysts: bifunctional oxygen electrocatalysts boost flexible zinc–air battery performance

“…205 Moreover, the incorporation of different metal atoms leads to a distorted lattice configuration that offers additional degrees of freedom for optimizing the charge or coordination numbers. 206 Therefore, investigating alloy structures is crucial for enhancing the catalytic activity of FZAB.…”

Atomically dispersed multi-site catalysts: bifunctional oxygen electrocatalysts boost flexible zinc–air battery performance

“…[7][8][9][10] This is due to their unique chemical environment properties, and they are anticipated to facilitate the large-scale development of electrochemical CO 2 -to-CO conversion. [11][12][13] Generally, in M-N-C materials, the coordination-saturated M-N 4 moiety is a common structure that determines the activity of CO 2 reduction. 14 Although considerable progress has been made in the CO 2 RR application of SACs with the M-N 4 moiety, 15,16 the highly symmetrical M-N 4 conguration actually restrains the modulation of the electronic structure of the metal center, thereby limiting its potential applications.…”

Low-coordinated Co–Mn diatomic sites derived from metal–organic framework nanorods promote electrocatalytic CO₂ reduction

“…Fortunately, the emergence of ultrathin 2D nanomaterials presents an unprecedented opportunity to improve photocatalytic activity. [7][8][9][10] Inspired by their unique and excellent physical and chemical properties, ultrathin 2D semiconductors have great advantages for photocatalysis, especially for CO 2 reduction. [11][12][13][14] The large specific surface area offers sufficient sites for CO 2 adsorption.…”

2D Atomic Layers for CO₂ Photoreduction