Fabrication of Super-Sized Metal Inorganic-Organic Hybrid Glass with Supramolecular Network via Crystallization-Suppressing Approach.
Mohamed A AliWessel M W WintersMoushira A MohamedDezhi TanGuojun ZhengRasmus S K MadsenOxana V MagdysyukMaria Diaz-LopezBiao CaiNan GongYijue XuIvan HungZhehong GanSabyasachi SenHong-Tao SunThomas Douglas BennettXiaofeng LiuYuanzheng YueJianrong QiuPublished in: Angewandte Chemie (International ed. in English) (2023)
Metal coordination compound (MCC) glasses [e.g., metal-organic framework (MOF) glass, coordination polymer glass, and metal inorganic-organic complex (MIOC) glass] are emerging members of the hybrid glass family. So far, a limited number of crystalline MCCs can be converted into glasses by melt-quenching. Here, we report a universal wet-chemistry method, by which the super-sized supramolecular MIOC glasses can be synthesized from non-meltable MOFs. Alcohol and acid were used as agents to inhibit crystallization. The MIOC glasses demonstrate unique features including high transparency, shaping capability, and anisotropic network. Directional photoluminescence with a large polarization ratio (≈47 %) was observed from samples doped with organic dyes. This crystallization-suppressing approach enables fabrication of super-sized MCC glasses, which cannot be achieved by conventional vitrification methods, and thus allows for exploring new MCC glasses possessing photonic functionalities.