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NIR‐II Anti‐Stokes Luminescence Nanocrystals with 1710 nm Excitation for in vivo Bioimaging

Zi‐Han Chen, Baofeng Yun, Yanran Hou, Xiaohan Wang, Xusheng Wang, Jing Xu, Li Jiang, Ting Han, Hongxin Zhang, Hongxin Zhang, Fan Zhang

2024Angewandte Chemie International Edition26 citationsDOI

Abstract

Abstract Anti‐Stokes luminescence (ASL) based on lanthanide nanocrystals holds immense promise for in vivo optical imaging and bio‐detection, which benefits from filtered autofluorescence. However, the current longest emission and excitation wavelengths of lanthanide ASL system were shorter than 1200 nm and 1532 nm, respectively, which limited tissue penetration depth and caused low signal‐to‐noise ratio (SNR) of in vivo imaging due to tissue scattering and water absorption. In this work, we extended the excitation wavelength to 1710 nm with the second near‐infrared (NIR‐II, 1000–1700 nm) emission up to 1650 nm through a novel ASL nanocrystal LiYF 4 : 10 %Tm@LiYF 4 : 70 %Er@LiYF 4 . Compared with 1532 nm excited ASL nanoprobes, the 1710 nm excited nanocrystals could improve in vivo imaging SNR by 12.72 folds. Based on this excellent imaging performance of the proposed ASL nanoprobes, three‐channel in vivo dynamic multiplexed imaging was achieved, which quantitatively revealed metabolic rates of intestinal dynamics and liver enrichment under anesthetized and awake states. This innovative ASL nanoprobes and dynamic multiplexed imaging technology would be conducive to optimizing dosing regimen and treatment plans across various physiological conditions.

Topics & Concepts

LuminescenceIn vivoMaterials scienceExcitationAutofluorescenceExcited stateStokes shiftPhoton upconversionPreclinical imagingWavelengthNanocrystalLanthanideFluorescenceNanotechnologyOpticsOptoelectronicsChemistryIonPhysicsOrganic chemistryElectrical engineeringNuclear physicsBiotechnologyEngineeringBiologyNanoplatforms for cancer theranosticsOptical properties and cooling technologies in crystalline materialsUltrasound and Hyperthermia Applications