JIN JUNSU

[1]  In-situ crystallization of CALF-20 nanoparticles in poly(acrylate) with enhanced CO₂ capture capability toward high-humidity flue gases [J]. Separation and Purification Technology, 343, 2024, 127102.

[2]  Enhanced electrocatalytic CO₂ reduction to formic acid using nanocomposites of In₂O₃@C with graphene, Nano Research, 17, 5031–5039 (2024)

[3]  Type II Heterojunction Formed by 3D Flower-like Microspheres of BiOBr/NH2-Fe-MOF with High Photocatalytic Degradation of RhB via Visible Light，Industrial and Engineering Chemistry Research，2023, 62, 46, 19510–19523

[4]  In-situ confined growth of defective MIL-100(Fe) in macroporous polyacrylate spherical substrate at room temperature for high-effcient toluene removal, Separation and Purification Technology, 2023,324, 124623.2023-7

[5]  Dual hydrophobic modification on MIL-101(Cr) with outstanding toluene removal under high relative humidity. Chemical Engineering Journal, 2023, 451: 139000.

[6]  Transformation of Al-CDC from 3D crystals to 2D nanosheets in macroporous polyacrylates with enhanced CH₄/N₂ separation efficiency and stability. Chemical Engineering Journal, 2022, 429: 132285.

[7]  Dual MOFs composites: MIL-53 coated with amorphous UiO-66 for enhanced photocatalytic oxidation of tetracycline and methylene blue. Nano Research, 2023, https://doi.org/10.1007/s12274-022-5200-y.

[8]   In situ growth of UiO-66 with its particle size reduced by 90% into porous polyacrylate: experiments and applications. Industrial & Engineering Chemistry Research, 2022, (23): 61.