近期发表主要SCI论文:
1.Progressive regulation of Al sites and Cu distribution to increase hydrothermal stability of hierarchical SSZ-13 for the selective catalytic reduction reaction.Applied Catalysis B: Environmental,2022
2.Fe-carbon dots enhance the photocatalytic nitrogen fixation activity of TiO2@CN heterojunction.Chemical Engineering Journal,2022
3.Inducing the SnO2-based electron transport layer into NiFe LDH/NF as efficient catalyst for OER and methanol oxidation reaction.Journal of Materials Science &Technology,2022
4.Insight into the surface property modification-enhanced C3N4 performance of photocatalytic nitrogen fixation. Chemical Communications,2022
5. Boron doped C3N5 for photocatalytic nitrogen fixation to ammonia: The key role of boron in nitrogen activation and mechanism.Chemical Engineering Journal,2022
6 In situ precipitated NiCo nanoparticles synergize with metaborate to promote hydrogen evolution and couple with urea oxidation to reduce overall water splitting potential.Electrochimica Acta,2022
7 A regulation strategy using trace copper boosting electrocatalytic activity of bifunctional metallic dihydroxy in hydrogen evolution and methanol oxidation.eApplied Surface Science,2022
8 Mesoporous–optimized BaMnO3 perovskite small-scale nanocrystals in SSZ-13 to enhance activity for the selective catalytic reduction reaction of NO.Applied Catalysis A- General,2022
9 Green synthesis of ZSM-5 zeolite for selective catalytic reduction of NO via template-free method from tailing residue.Journal of Environmental Chemical Engineering,2022
10.Site-exposed Ti3C2 MXene anchored in N-defect g-C3N4 heterostructure nanosheets for efficient photocatalytic N2 fixation.Catalysis Science &Technology,2021
11.NCoCu Carbon Dots Intertwined NiCo Double Hydroxide Nanorod Array for Efficient Electrocatalytic Hydrogen Evolution.ChemCatChem,2021
12.Migration of cations and shell functionalization for Cu-Ce-La/SSZ-13@ZSM-5: The contribution to activity and hydrothermal stability in the selective catalytic reduction reaction. Journal of Catalysis,2020
13.Controllable positions of Cu2+ to enhance low-temperature SCR activity on novel Cu-Ce-La-SSZ-13 by a simple one-pot method. Chemical Communication
14. The Effect of CeO2 Dispersity and Active Oxygen Species on the SCR Reaction Over Fe-ZSM-5@Ce/meso-SiO2. Catalysis Letters
15.3D network Ni-based electrocatalysts with interfacial active sites of Ru QDs and Ni(OH)2 for efficient hydrogen evolution reaction under large current density in alkaline environment.Electrochimica Acta
16.Dual-template assembled hierarchical Cu-SSZ-13:morphology evolution, crystal growth and stable high-temperature selective catalytic reduction performance.CrystEngComm.
17.Synergistic effect of Cu2+ doping and sulfation in Cu-Ce-S, tolerance to H2Oand SO2 and decomposition behaviors of ammonia salts.Molecular Catalysis
18.Synthesis of Fe-ZSM-5@Ce/mesoporous-silica and its enhanced activity by sequential reaction process for NH3-SCR.Chemical Engineering Journal
19.Assembly of hollow CeO2@Fe-ZSM-5 and SCR performance.Journal of Alloys and Compounds
20.H2O and SO2 tolerance, activity and reaction mechanism of sulfated Ni–Ce–La composite oxide nanocrystals in NH3-SCR.Chemical Engineering Journal