Zipeng Xing

Sep 9, 2024 | nature.com | Zipeng Xing

AbstractHierarchical Bi2Fe4O9/BiOI S-scheme nanoflower heterostructures are prepared by hydrothermal method, which exhibit exceptional photo-piezoelectric catalytic performance. The tight binding between the sheets ensures the efficient electron transport, and provides a large interface area and adequate reaction sites for photo-piezoelectric catalytic reactions.

Jul 17, 2024 | pubs.rsc.org | Xinyue Liu |Zipeng Xing |Na Zhang

Sea urchin-like plasma Ag/CAU-17@MoS2 core–shell S-scheme heterojunctions with broad spectrum response and enhanced photothermal–photocatalysis† A three-dimensional sea urchin core–shell (Ag/CAU-17@MoS2) S-scheme heterojunction was prepared via a two-step hydrothermal and photodeposition route. CAU-17 features a unique three-dimensional open frame structure. With the addition of MoS2, the band gap of CAU-17 is narrowed, giving adequate surface active sites.

Jul 4, 2024 | pubs.rsc.org | Xinyue Liu |Zipeng Xing |Na Zhang

Bimetallic CoNi-metal–organic framework@molybdenum disulfide core–shell Z-scheme heterojunctions with broad-spectrum response toward optimized photocatalytic performance† This work reports the effective preparation of a bimetallic metal–organic framework CoNi-MOF@MoS2 core–shell Z-scheme heterojunction photocatalyst via a two-step hydrothermal method. MoS2 nanoflowers uniformly grow on the multilayer CoNi-MOF exterior.

Apr 25, 2024 | pubs.rsc.org | Pingping Liu |Peng R. Chen |Zipeng Xing

Zr-based metal–organic framework PCN-222@defective ZnIn2S4 core–shell Z-scheme heterojunctions toward efficient charge separation and optimized photocatalytic performance† Interface engineering is vital for promoting photocatalytic performance. Here, a novel Zr-based metal–organic framework PCN-222@defective ZnIn2S4 with indium vacancy core–shell Z-scheme heterojunctions (PVIn-ZIS) was fabricated through a facile solvent-thermal method.