Abstract

Nanoscale metal-organic frameworks (MOFs) that are both fluorescent and hollow are attracting increasing interest in recent years, but ideal candidates prepared by reliable methods for biomedical applications are still very limited. Herein, we for the first time prepared tetrakis[4-(4-carboxyphenyl)phenyl]ethene (TCBPE)-based MOF nanotubes with hollow nanostructures, which could emit strong fluorescence. It was further discovered that the formation of this hollow hexagonal nanotube underwent a self-templated growth and a subsequent concaving process, which revealed that the synthesis of this MOF was kinetic rather than thermodynamic. This new MOF showed high biocompatibility, optical stability, sensitivity to pH response, and capability for exotic loading. This new MOF was further employed for efficient anti-cancer drug delivery in a self-indicating manner based on these attractive features. Therefore, this work could bring in valuable insights into the exploration of multifunctional MOFs in the field of biomedical applications by providing a new exemplar with high practical utility.

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