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The fast-growing field of photo-driven theranostics based on aggregation-induced emission

Zhijun Zhang, Miaomiao Kang, Hui Tan, Nan Song, Meng Li, Peihong Xiao, Dingyuan Yan, Liping Zhang, Dong Wang, Ben Zhong Tang

2022Chemical Society Reviews350 citationsDOI

Abstract

Photo-driven theranostics, also known as phototheranostics, relying on the diverse excited-state energy conversions of theranostic agents upon photoexcitation represents a significant branch of theranostics, which ingeniously integrate diagnostic imaging and therapeutic interventions into a single formulation. The combined merits of photoexcitation and theranostics endow photo-driven theranostics with numerous superior features. The applications of aggregation-induced emission luminogens (AIEgens), a particular category of fluorophores, in the field of photo-driven theranostics have been intensively studied by virtue of their versatile advantageous merits of favorable biocompatibility, tuneable photophysical properties, unique aggregation-enhanced theranostic (AET) features, ideal AET-favored on-site activation ability and ready construction of one-for-all multimodal theranostics. This review summarised the significant achievements of photo-driven theranostics based on AIEgens, which were detailedly elaborated and classified by their diverse theranostic modalities into three groups: fluorescence imaging-guided photodynamic therapy, photoacoustic imaging-guided photothermal therapy, and multi-modality theranostics. Particularly, the tremendous advantages and individual design strategies of AIEgens in pursuit of high-performance photosensitizing output, high photothermal conversion and multimodal function capability by adjusting the excited-state energy dissipation pathways are emphasized in each section. In addition to highlighting AIEgens as promising templates for modulating energy dissipation in the application of photo-driven theranostics, current challenges and opportunities in this field are also discussed.

Topics & Concepts

Photothermal therapyAggregation-induced emissionDissipationNanotechnologyField (mathematics)Excited stateMaterials scienceChemistryOpticsPhysicsFluorescenceNuclear physicsPure mathematicsThermodynamicsMathematicsLuminescence and Fluorescent MaterialsNanoplatforms for cancer theranosticsPerovskite Materials and Applications
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