Dye Doped Metal-Organic Frameworks for Enhanced Phototherapy

Phototherapy is a noninvasive cancer treatment that relies on the interaction between light and photoac-tive agents. These photoactive agents are typically organic dyes, but their hydrophobic nature and self -aggregation tendency in biological media greatly restricts the development of highly effective photother-apeutic systems. In the past decade, functional dye-doped metal-organic framework (MOF)-based pho-totherapy has attracted enormous interest because organic dyes can be encapsulated and isolated within the MOF structure to show superior treatment efficacy. In addition to incorporating the reported phototherapeutic dyes into MOF as the ligand or the guest in the pores, the construction of an MOF-based phototherapy agent can also be extended to these dye units that are previously inactive for phototherapy. Thus, this review focuses on the emerging development of phototherapeutic MOFs that exhibited better performance than the involving dye units due to the controlled dye aggregation within the MOF. The related mechanisms and some emerging future directions of dye-doped MOF-based phototherapy are also discussed and summarized.(c) 2022 Elsevier B.V. All rights reserved.