Algorithmic Iterative Reticular Synthesis of Zeolitic Imidazolate Framework Crystals

Abstract: The discovery of crystalline reticular materials remains largely trial-and-error despite their societal importance. We introduce our algorithmic iterative reticular synthesis (AIRES) cycle, which integrates automated synthesis, image recognition, single-crystal X-ray diffraction and, crucially, customized algorithmic decision-making, to maximize distinct crystal discoveries rather than optimizing single targets. Demonstrated on zeolitic imidazolate frameworks (ZIFs), AIRES achieves twice the discovery rate of random exploration, crystallizing 10 new linkers into diverse ZIF topologies and expanding the single-linker Zn-ZIF library by one-third. By transforming reticular synthesis from an empirical process to a systematic exploration, AIRES provides a scalable and efficient blueprint for accelerating materials discovery.

Rong, Z., Chen, Z., Luong, F. et al. (2025) "Algorithmic iterative reticular synthesis of zeolitic imidazolate framework crystals" Nat. Synth.
Paper | BibTeX

@article{rongAlgorithmicIterativeReticular2025,
    title = {Algorithmic Iterative Reticular Synthesis of Zeolitic Imidazolate Framework Crystals},
    author = {Rong, Zichao and Chen, Zihao and Luong, Felix and Chheda, Saumil and Luong, H. T. Nhan and Zheng, Zhiling and Greco, Kevin and Alghamdi, Abdullah A. and Bui, K. Huyen and Jaffrelot Inizan, Th{\'e}o and {Nguyen-Dang}, Tung and Pham, H. Hieu and Le, Dung D. and Sauer, Joachim and Phung, Viet Bac T. and Chayes, Jennifer T. and Borgs, Christian and Boley, Mario and El Ghaoui, Laurent and Yaghi, Omar M.},
    year = 2025,
    month = nov,
    journal = {Nature Synthesis},
    pages = {1--11},
    publisher = {Nature Publishing Group},
    issn = {2731-0582},
    doi = {10.1038/s44160-025-00939-9},
}