Litcius/Paper detail

Two Key Descriptors for Designing Second Near-Infrared Dyes and Experimental Validation

Yi Zeng, Jiamin Qu, Guanghao Wu, Yeyun Zhao, Jiaman Hao, Yuping Dong, Ze‐Sheng Li, Jianbing Shi, Joseph S. Francisco, Xiaoyan Zheng

2024Journal of the American Chemical Society46 citationsDOI

Abstract

Second near-infrared (NIR-II) optical imaging technology has emerged as a powerful tool for diagnostic and image-guided surgery due to its higher imaging contrast. However, a general strategy for efficiently designing NIR-II organic molecules is still lacking, because NIR-II dyes are usually difficult to synthesize, which has impeded the rapid development of NIR-II bioprobes. Herein, based on the theoretical calculations on 62 multiaryl-pyrrole (MAP) systems with spectra ranging from the visible to the NIR-II region, a continuous red shift of the spectra toward the NIR-II region could be achieved by adjusting the type and site of substituents on the MAPs. Two descriptors (Δ E gs and μ gs ) were identified as exhibiting strong correlations with the maximum absorption/emission wavelengths, and the descriptors could be used to predict the emission spectrum in the NIR-II region only if Δ E gs ≤ 2.5 eV and μ gs ≤ 22.55 D. The experimental absorption and emission spectra of ten MAPs fully confirmed the theoretical predictions, and biological imaging in vivo of newly designed MAP23-BBT showed high spatial resolution in the NIR-II region in deep tissue angiography. More importantly, both descriptors of Δ E gs and μ gs have shown general applicability to most of the reported donor–acceptor–donor-type non-MAP NIR-II dyes. These results have broad implications for the efficient design of NIR-II dyes.

Topics & Concepts

ChemistryNear-infrared spectroscopyAbsorption (acoustics)Spectral lineResolution (logic)PyrroleAbsorption spectroscopyWavelengthAnalytical Chemistry (journal)OpticsOptoelectronicsArtificial intelligenceOrganic chemistryMaterials sciencePhysicsComputer scienceAstronomyNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsPhotoreceptor and optogenetics research
Two Key Descriptors for Designing Second Near-Infrared Dyes and Experimental Validation | Litcius