Litcius/Paper detail

Nearly 100% energy transfer at the interface of metal-organic frameworks for X-ray imaging scintillators

Jianxin Wang, Luis Gutiérrez‐Arzaluz, Xiaojia Wang, Maram Almalki, Jun Yin, Justyna Czaban‐Jóźwiak, Osama Shekhah, Yuhai Zhang, Osman M. Bakr, Mohamed Eddaoudi, Omar F. Mohammed

2021Matter118 citationsDOIOpen Access PDF

Abstract

In this work, we describe a highly efficient and reabsorption-free X-ray-harvesting system using luminescent metal-organic framework (MOF)-fluorescence chromophore composite films. The ultrafast time-resolved experiments and density functional theory calculations demonstrate that a nearly 100% energy transfer from a luminescent MOF with a high atomic number to an organic chromophore with thermally activated delayed fluorescence (TADF) character can be achieved. Such an unprecedented efficiency of interfacial energy transfer and the direct harnessing of singlet and triplet excitons of the TADF chromophore led to remarkable enhancement of radioluminescence upon X-ray radiation. A low detection limit of 256 nGy/s of the fabricated X-ray imaging scintillator was achieved, about 60 times lower than the MOF and 7 times lower than the organic chromophore counterparts. More importantly, this detection limit is about 22 times lower than the standard dosage for a medical examination, making it an excellent candidate for X-ray radiography.

Topics & Concepts

ScintillatorX-rayEnergy transferInterface (matter)Materials scienceMetalOpticsPhysicsEngineering physicsComposite materialMetallurgyDetectorCapillary actionCapillary numberMedical Imaging Techniques and ApplicationsMachine Learning in Materials ScienceLanthanide and Transition Metal Complexes