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Lin Chen, Bingqing Xu, Siying Wang, Shan Ren, Fan Yang, Wei Zhang, Yuanpei Lan, Chaoyi Chen, Junqi Li, Yanbing Su. Advancements in synthesis strategies and environmental application of FAU-type zeolite: Bibliometric-driven review. Green Energy&Environment. doi: 10.1016/j.gee.2025.10.003
Citation: Lin Chen, Bingqing Xu, Siying Wang, Shan Ren, Fan Yang, Wei Zhang, Yuanpei Lan, Chaoyi Chen, Junqi Li, Yanbing Su. Advancements in synthesis strategies and environmental application of FAU-type zeolite: Bibliometric-driven review. Green Energy&Environment. doi: 10.1016/j.gee.2025.10.003

Advancements in synthesis strategies and environmental application of FAU-type zeolite: Bibliometric-driven review

doi: 10.1016/j.gee.2025.10.003
  • FAU zeolites have emerged as multifunctional materials with broad applications in catalysis and adsorption, owing to their hierarchical pore architectures, elevated specific surface areas, and adjustable extra-framework cationic sites. This review provides a critical overview of recent advances in FAU zeolite research with emphasis on their roles in environmental pollutant mitigation. A bibliometric analysis was performed to ascertain worldwide research trends, cooperation networks, and principal theme areas. Strategies for synthesis and functionalization, including crystallization pathways, one-pot methods, and post-synthetic modifications, were systematically evaluated for their capacity to tailor structural and physicochemical properties. Environmental applications were discussed in detail, particularly in heavy metal extraction, CO2 capture, and catalytic NOx reduction. Despite these advances, challenges persisted, notably restricted chemical stability under extreme pH conditions, scalability obstacle from laboratory to industrial production, and the necessity for enhanced catalytic efficiency, were emphasized. By integrating fundamental understanding with application-oriented perspectives, this review identifies existing knowledge gaps and delineates future directions for the rational design of FAU zeolites toward sustainable environmental remediation.

     

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