2025:
(1) Synergistic Interactions Among Iron and Cobalt Atoms Within Bimetallic Molybdate@Carbon Paper Composite Create Bifunctional
Nanoflower Electrocatalyst, Enhancing Efficiency for Overall Water Splitting in Alkaline Environment. Molecules, (SCI, IF 4.1);
(2) Construction advanced S-scheme heterojunction composites of bimetallic phosphate MnMgPO4 with C3N4 for remarkable
performance photocatalytic hydrogen production and pollutant degradation, Coatings, (SCI, IF 2.9).
2024:
(1) Constructing heterojunctions of CoAl2O4 and Ni3S2 anchored on carbon cloth to acquire multiple active
sites for efficient overall water splitting, Journal of Electroanalytical Chemistry, (SCI, IF 3.4);
(2) Accelerated Electrons Transfer and Synergistic Interplay of Co and GeAtoms(111 Crystal Plane) Activated
by Anchoring Nano Spinel Structure Co2GeO4 onto Carbon Cloth Composite Electrocatalyst for Highly Enhanced Hydrogen
Evolution Reaction, Catalysts, (SCI, IF 3.1);
(3) Regulating the crystal phase and morphology of XMoO4 through adjusting the ratio of iron and cobalt for
significantly boosted photocatalytic degradation of methylene blue and tetracycline,
J Mater Sci: Mater Electron, (SCI, IF 2.9);
(4) Mn掺杂石墨烯吸附二氧化硫分子的密度泛函理论研究 (有色金属,中文核心).
2023:
(1) Construction highly efficient p–n heterojunctions composite of BiBaO3 and Ag3PO4 for visible light driven
photocatalytic degradation of tetracycline and oxytetracycline, Water Resources and Industry, (SCI, IF 5.1);
(2) The synergistic benefits of hydrate CoMoO4 and carbon nanotubes culminate in the creation of highly
efficient electrocatalysts for hydrogen evolution, Alexandria Engineering Journal, (SCI, IF 6.1);
(3) Mn掺杂Zigzag(8,0)型单壁碳纳米管吸附甲醛分子的密度泛函理论研究 (材料导报,EI);
(4) Low‑cost composite electrodes by active Fe3O4 (111) of fly ash magnetic‑sphere for efficient electrochemical
overall water splitting, International Journal of Environmental Science and Technology, (SCI, IF 3.1);
(5) The integration of both advantages of cobalt-incorporated cancrinite-structure nanozeolite and carbon
nanotubes for achieving excellent electrochemical oxygen evolution efficiency, Catalysis Communications,
(SCI, IF 3.2);
(6) Optimizing the Local Charge of Graphene via Iron Doping to Promote the Adsorption of Formaldehyde
Molecules—A Density Functional Theory Study, Coatings, (SCI, IF 2.9).
2022:
(1) Accessible active sites activated by nano cobalt antimony oxide @ carbon nanotube composite electrocatalyst for highly enhanced
hydrogen evolution reaction, International Journal of Hydrogen Energy, (SCI, IF 8.3);
(2) Construction of Highly Efficient Zn0.4Cd0.6S and Cobalt Antimony Oxide Heterojunction Composites for Visible-Light-Driven
Photocatalytic Hydrogen Evolution and Pollutant Degradation, Water, (SCI, IF 3.1);
(3) Fe-encapsulated zeolite composite with free OH group as Fenton-like catalyst in near-neutral solution, Desalination and Water
Treatment, (SCI, IF 2.1);
(4) Photocatalytic degradation of tetracycline wastewater through heterojunction based on 2D rhombic ZrMo2O8 nanosheet and
nano‑TiO2, J Nanopart Res , (SCI, IF 2.3);
(5) Surface functionalization of Linde F (K) nano‑zeolite and its application for photocatalytic wastewater treatment and hydrogen
production, Applied Physics A, (SCI, IF 3.1).
