Recent progress on lanthanide scintillators for soft X‐ray‐triggered bioimaging and deep‐tissue theranostics
Mingyang Jiang,
Zhiming Deng,
Songjun Zeng,
Jianhua Hao
Affiliations
Mingyang Jiang
Synergetic Innovation Center for Quantum Effects and Application Key Laboratory of Low‐dimensional Quantum Structures and Quantum Control of Ministry of Education Key Laboratory for Matter Microstructure and Function of Hunan Province School of Physics and Electronics Hunan Normal University Changsha P. R. China
Zhiming Deng
Synergetic Innovation Center for Quantum Effects and Application Key Laboratory of Low‐dimensional Quantum Structures and Quantum Control of Ministry of Education Key Laboratory for Matter Microstructure and Function of Hunan Province School of Physics and Electronics Hunan Normal University Changsha P. R. China
Songjun Zeng
Synergetic Innovation Center for Quantum Effects and Application Key Laboratory of Low‐dimensional Quantum Structures and Quantum Control of Ministry of Education Key Laboratory for Matter Microstructure and Function of Hunan Province School of Physics and Electronics Hunan Normal University Changsha P. R. China
Jianhua Hao
Department of Applied Physics The Hong Kong Polytechnic University Kowloon Hong Kong P. R. China
Abstract Lanthanide scintillators capable of converting the absorbed X‐ray photon energy to ultraviolet (UV) or visible light, are emerged as promising nanoprobes for multifunctional diagnosis and deep‐tissue antitumor therapy such as X‐ray‐excited fluorescence (XEF) imaging, X‐ray‐triggered photodynamic therapy (X‐PDT), and soft X‐ray‐activated NO gas therapy. Such biomedical tools have the potential to overcome the major challenge of the depth barrier suffered by traditional optics. Recently, various lanthanide scintillators have been designed for diagnosis and therapy of deep‐seated tumors. This minireview presents an overview of recent progress on the lanthanide‐based scintillators and illustration of the potential challenges and future development.
