司文哲论文成果

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司文哲

(教授)

学位：博士
性别：男
毕业院校：吉林大学
学历：博士研究生毕业
在职信息：在职
所在单位：新能源与环境学院

论文成果

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Promoting C-Cl Bond Activation via a Preoccupied Anchoring Strategy on Vanadia-Based Catalysts for Multi-Pollutant Control of NOx and Chlorinated Aromatics. Environmental Science & Technology. 2024,58 (37):16357-16367
Phosphorus-Water Interaction Drives Active Center Evolution into the Water-Adaptive Structure in the High-Humidity NH3-SCR Reaction. Environmental Science & Technology. 2024,58 (37):16600-16610
Nonstoichiometry Induced Amorphous Grain Boundary of Na5SmSi4O12 Solid-State Electrolyte for Long-Life Dendrite-Free Sodium Metal Battery. Nano Letters. 2024,24 (29):8911-8919
Enhancing CO2 Electroreduction Performance through Si-Doped CuO: Stabilization of Cu+/Cu0 Sites and Improved C2 Product Selectivity. ACS Catalysis. 2024,14 (13):10324-10333
Essential role of lattice oxygen in hydrogen sensing reaction. Nature Communications. 2024,15 :2998
Influence of Oxygen Vacancy-Induced Coordination Change on Pd/CeO2 for NO Reduction. Environmental Science & Technology. 2024,58 (4):2133-2143
Oxygen vacancy engineering on copper-manganese spinel surface for enhancing toluene catalytic combustion: A comparative study of acid treatment and alkali treatment. Applied Catalysis B: Environmental. 2024,340 :123142
Surface Defect Engineering on Constructing High-Performance Noble Metal Active Sites: A Simple and Cost-Effective Path to High-Performance Oxidation Catalysts. ACS Catalysis. 2023,13 (22):14792-14801
Anti-Poisoning Mechanisms of Sb on Vanadia-Based Catalysts for NOx and Chlorobenzene Multi-Pollutant Control. Environmental Science & Technology. 2023,57 (28):10211-10220
Boosting CO Catalytic Oxidation Performance via Highly Dispersed Copper Atomic Clusters: Regulated Electron Interaction and Reaction Pathways. Environmental Science & Technology. 2023,57 (7):2928-2938
Probing the Actual Role and Activity of Oxygen Vacancies in Toluene Catalytic Oxidation: Evidence from In Situ XPS/NEXAFS and DFT plus U Calculation. ACS Catalysis. 2023,13 (6):3444-3455
Novel Insights on the Metal-Support Interactions of Pd/ZrO2 Catalysts on CH4 Oxidation. ACS Applied Materials & Interfaces. 2023,15 (6):7959–7968
Defect Engineering on CuMn2O4 Spinel Surface: A New Path to High-Performance Oxidation Catalysts. Environmental Science & Technology. 2022,56 (22):16249-16258
Research progress on CO2 capture and utilization technology. Journal of CO2 Utilization. 2022,66 :102260
Roles of Ru on the V2O5-WO3/TiO2 Catalyst for the Simultaneous Purification of NOx and Chlorobenzene: A Dechlorination Promoter and a Redox Inductor. ACS Catalysis. 2022,12 (18):11505-11517
Metal-Support Interactions within a Dual-Site Pd/YMn2O5 Catalyst during CH4 Combustion. ACS Catalysis. 2022,12 (8):4430-4439

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司文哲

论文成果

Promoting C-Cl Bond Activation via a Preoccupied Anchoring Strategy on Vanadia-Based Catalysts for Multi-Pollutant Control of NOx and Chlorinated Aromatics. Environmental Science & Technology. 2024,58 (37):16357-16367

Phosphorus-Water Interaction Drives Active Center Evolution into the Water-Adaptive Structure in the High-Humidity NH3-SCR Reaction. Environmental Science & Technology. 2024,58 (37):16600-16610

Nonstoichiometry Induced Amorphous Grain Boundary of Na5SmSi4O12 Solid-State Electrolyte for Long-Life Dendrite-Free Sodium Metal Battery. Nano Letters. 2024,24 (29):8911-8919

Enhancing CO2 Electroreduction Performance through Si-Doped CuO: Stabilization of Cu+/Cu0 Sites and Improved C2 Product Selectivity. ACS Catalysis. 2024,14 (13):10324-10333

Essential role of lattice oxygen in hydrogen sensing reaction. Nature Communications. 2024,15 :2998

Influence of Oxygen Vacancy-Induced Coordination Change on Pd/CeO2 for NO Reduction. Environmental Science & Technology. 2024,58 (4):2133-2143

Oxygen vacancy engineering on copper-manganese spinel surface for enhancing toluene catalytic combustion: A comparative study of acid treatment and alkali treatment. Applied Catalysis B: Environmental. 2024,340 :123142

Surface Defect Engineering on Constructing High-Performance Noble Metal Active Sites: A Simple and Cost-Effective Path to High-Performance Oxidation Catalysts. ACS Catalysis. 2023,13 (22):14792-14801

Anti-Poisoning Mechanisms of Sb on Vanadia-Based Catalysts for NOx and Chlorobenzene Multi-Pollutant Control. Environmental Science & Technology. 2023,57 (28):10211-10220

Boosting CO Catalytic Oxidation Performance via Highly Dispersed Copper Atomic Clusters: Regulated Electron Interaction and Reaction Pathways. Environmental Science & Technology. 2023,57 (7):2928-2938

Probing the Actual Role and Activity of Oxygen Vacancies in Toluene Catalytic Oxidation: Evidence from In Situ XPS/NEXAFS and DFT plus U Calculation. ACS Catalysis. 2023,13 (6):3444-3455

Novel Insights on the Metal-Support Interactions of Pd/ZrO2 Catalysts on CH4 Oxidation. ACS Applied Materials & Interfaces. 2023,15 (6):7959–7968

Defect Engineering on CuMn2O4 Spinel Surface: A New Path to High-Performance Oxidation Catalysts. Environmental Science & Technology. 2022,56 (22):16249-16258

Research progress on CO2 capture and utilization technology. Journal of CO2 Utilization. 2022,66 :102260

Roles of Ru on the V2O5-WO3/TiO2 Catalyst for the Simultaneous Purification of NOx and Chlorobenzene: A Dechlorination Promoter and a Redox Inductor. ACS Catalysis. 2022,12 (18):11505-11517

Metal-Support Interactions within a Dual-Site Pd/YMn2O5 Catalyst during CH4 Combustion. ACS Catalysis. 2022,12 (8):4430-4439