Nonmetal Atom Doping Induced Orbital Shifts and Charge Modulation at the Edge of Two-Dimensional Boron Carbonitride Leading to Enhanced Photocatalytic Nitrogen Reduction

Abstract: Electronic structure, particularly charge state analysis, plays a crucial role in comprehending catalytic mechanisms. This study focuses on metal-free boron carbonitride (BCN) nanosheets as a case study to investigate the impact of heteroatom doping on the charge state of active sites at the edge of two-dimensional (2D) metal-free nanomaterials. Our observations revealed that the doping induces a shift in the frontier p y orbital near the Fermi level, accompanied by alterations in its charge state. These chang… Show more

“…Photocatalysis is a promising technology for the production of clean energy using sunlight-excited semiconductor photocatalysts. − Hydrogen is the world’s cleanest energy source. − The high density and low pollution characteristics of hydrogen energy have made hydrogen evolution and application technologies a focus of attention in the 21st century. In the background of global energy demand and the global carbon cycle, researchers have explored a large number of photocatalysts for hydrogen evolution. − However, most photocatalysts are prone to photogenerated carrier recombination under light excitation, , resulting in inadequate photocatalytic efficiency.…”

Theoretical Prediction and Synthesis of Nonmetal-Doped Anatase TiO₂ (101) for Boosting Photocatalytic Hydrogen Evolution Reaction

“…Photocatalysis is a promising technology for the production of clean energy using sunlight-excited semiconductor photocatalysts. − Hydrogen is the world’s cleanest energy source. − The high density and low pollution characteristics of hydrogen energy have made hydrogen evolution and application technologies a focus of attention in the 21st century. In the background of global energy demand and the global carbon cycle, researchers have explored a large number of photocatalysts for hydrogen evolution. − However, most photocatalysts are prone to photogenerated carrier recombination under light excitation, , resulting in inadequate photocatalytic efficiency.…”

Theoretical Prediction and Synthesis of Nonmetal-Doped Anatase TiO₂ (101) for Boosting Photocatalytic Hydrogen Evolution Reaction

“…12–15 The efficiency of the photochemical and electrochemical nitrogen reduction reaction (NRR) for NH 3 production relies upon the prudent choice of a catalytic system that can accelerate the reaction dynamics. 16–21 A wide array of catalytic systems has been constructed by researchers to augment the yield of the targeted renewable energy carrier during energy-conversion applications. These systems include perovskites, 22,23 mesoporous materials, 24,25 transition metal oxides 26 /phosphides 27 /dichalchogenides 28 /carbonitrides/borides, 29,30 single-atom catalysts (SACs), 31,32 layered double hydroxides (LDHs), 33,34 and carbon-based derivatives.…”

Flatland materials for photochemical and electrochemical nitrogen fixation applications: from lab-door experiments to large-scale applicability

Synergistically flexible-robust effects mediate the dynamic reconfiguration of perylene diimide polymer to enhance piezo-photocatalytic nitrate reduction