Si-Yan Gong scite author profile

Nitrogen oxides released from the combustion of fossil fuels are one of the main air pollutants. Selective catalytic reduction technology is the most widely used nitrogen oxide removal technology in the industry. With the development of nanomaterials science, more and more novel nanomaterials are being used as catalysts for the selective reduction of nitrogen oxides. In recent years, metal-organic frameworks (MOFs), with large specific surface areas and abundant acid and metal sites, have been extensively studied in the selective catalytic reduction of nitrogen oxides. This review summarizes recent progress in monometallic MOFs, bimetallic MOFs, and MOF-derived catalysts for the selective catalytic reduction of nitrogen oxides and compares the reaction mechanisms of different catalysts. This article also suggests the advantages and disadvantages of MOF-based catalysts compared with traditional catalysts and points out promising research directions in this field.

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Si-Yan Gong

Flower-like ZnIn2S4 microspheres with highly efficient catalytic activity for visible-light-driven sulfamethoxazole photodegradation

Photocatalysis coupling hydrogen peroxide synthesis and in-situ radical transform for tetracycline degradation

Supermagnetic Mn-substituted ZnFe₂O₄ with AB-site hybridization for the ultra-effective catalytic degradation of azoxystrobin

Automatic Multi-Agent Negotiation in E-Procurement

Progress in Metal-Organic Framework Catalysts for Selective Catalytic Reduction of NOx: A Mini-Review

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Si-Yan Gong

Flower-like ZnIn2S4 microspheres with highly efficient catalytic activity for visible-light-driven sulfamethoxazole photodegradation

Photocatalysis coupling hydrogen peroxide synthesis and in-situ radical transform for tetracycline degradation

Supermagnetic Mn-substituted ZnFe2O4 with AB-site hybridization for the ultra-effective catalytic degradation of azoxystrobin

Automatic Multi-Agent Negotiation in E-Procurement

Progress in Metal-Organic Framework Catalysts for Selective Catalytic Reduction of NOx: A Mini-Review

Contact Info

Product

Resources

About

Supermagnetic Mn-substituted ZnFe₂O₄ with AB-site hybridization for the ultra-effective catalytic degradation of azoxystrobin