Yukun Sun

Publications by Year

Research Areas

Catalytic Processes in Materials Science, Advanced Photocatalysis Techniques, Nanomaterials for catalytic reactions, Gas Sensing Nanomaterials and Sensors, Catalysis and Oxidation Reactions

Most-Cited Works

• → Fabrication of CdS/titanium-oxo-cluster nanocomposites based on a Ti32 framework with enhanced photocatalytic activity for tetracycline hydrochloride degradation under visible light(2019)247 cited
• → Rational design of 3D/2D In2O3 nanocube/ZnIn2S4 nanosheet heterojunction photocatalyst with large-area “high-speed channels” for photocatalytic oxidation of 2,4-dichlorophenol under visible light(2019)173 cited
• → Novel all-solid-state Z-scheme SnO2/Pt/In2O3 photocatalyst with boosted photocatalytic performance on water splitting and 2,4-dichlorophenol degradation under visible light(2020)143 cited
• → Biotemplate Fabrication of Hollow Tubular Ce_xSr_1–xTiO₃ with Regulable Surface Acidity and Oxygen Mobility for Efficient Destruction of Chlorobenzene: Intrinsic Synergy Effect and Reaction Mechanism(2022)135 cited
• → Rationally Engineering a CuO/Pd@SiO₂ Core–Shell Catalyst with Isolated Bifunctional Pd and Cu Active Sites for n-Butylamine Controllable Decomposition(2022)37 cited
• → Rationally Fabricated Ce–Mn@ZrO₂–SO₄2– Catalyst Boosts the Efficient Destruction of Chlorobenzene with SO₂ Impurity: Synergy of Surface SO₄2– and Acidic Sites(2025)25 cited
• → Boosted 1,2-Dichloroethane Deep Destruction over CoRu/Al₂O₃ Bifunctional Catalysts via Surface Oxygen and Water Molecule Synergistic Activation(2024)21 cited
• → Coexisting single-atomic Fe and Fe2O3 on nitrogen-deficient g-C3N4 with enriched Fenton-like oxidation and photocatalytic performances for tetracycline degradation: DFT calculation, degradation mechanism and toxicity evaluation(2024)19 cited
• → Efficient and stable low-temperature CO oxidation over Pt/In–SnO₂ composite triggered by abundant oxygen vacancies and adsorption sites(2021)13 cited
• → Catalytic combustion of 1,2-dichloroethane via C C/C Cl bond cleavage through core-shell structured CeO2@TiO2 catalyst with excellent catalytic performances(2024)6 cited