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Nano-flowers FeS/MoS2 composites as a peroxymonosulfate activator for efficient p-chlorophenol degradation
Xian-Rui Meng, Qian Chen, Mei-Feng Wu, Qiang Wu, Su-Qin Wang*, Li-Ping Jin, Fan Zhou, Ren-Li Ma*, Jian-Ping Zou* Submit a Manuscript
Nano-flowers FeS/MoS2 composites as a peroxymonosulfate activator for efficient p-chlorophenol degradation
Xian-Rui Meng, Qian Chen, Mei-Feng Wu, Qiang Wu, Su-Qin Wang*, Li-Ping Jin, Fan Zhou, Ren-Li Ma*, Jian-Ping Zou* Submit a Manuscript
Topology-driven directed synthesis of metal-organic frameworks
Guoying Han, Qazi Mohammad Junaid, Xiao Feng*
Chin. J. Struct. Chem., 2025, 44(3), 100447. DOI: 10.1016/j.cjsc.2024.100447
March 1, 2025
ABSTRACT
The field of MOFs design and synthesis is rapidly evolving, with the application of topology becoming a powerful instrument for understanding and manipulating their intricate architectures. The integration of artificial intelligence technology enables material customization. This convergence facilitates application-oriented material design and targeted synthesis, ensuring that the synthesized materials meet specific stability and photoelectrical requirements for their intended applications. The synthesis of MOFs will thus become more precise and efficient, achieving true material customization.
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