title = {Metal-organic materials with triazine-based ligands: From structures to properties and applications},
journal = {Coordination Chemistry Reviews},
volume = {427},
pages = {213518},
year = {2021},
issn = {0010-8545},
doi = {https://doi.org/10.1016/j.ccr.2020.213518},
url = {https://www.sciencedirect.com/science/article/pii/S0010854520301788},
author = {Mei-Hui Yu and Xiao-Ting Liu and Brian Space and Ze Chang and Xian-He Bu},
keywords = {Metal-organic materials, Triazine-based ligands, Structural diversity, Properties and applications},
abstract = {Triazine-based ligands, featuring C3-symmetry configuration, electron-deficient and other triazine moiety determined characteristics, have facilitated the construction of a diverse set of metal-organic materials (MOMs, including discrete MOPs and distinct dimensional CPs). Therefore, over the past decades, MOMs with triazine-based ligands developed rapidly and drew tremendous attention in both chemistry and material fields. Here, the structural and functional diversity in MOMs achieved by the versatility of triazine-based ligand is systematically reviewed, and the potential applications of related MOMs in the areas of guest structure determination, luminescence, adsorption and separation, catalysis, drug delivery and magnetism are highlighted.}