带有尼罗红发色团及其衍生物之一的钌配合物：光动力疗法相关性质的理论评估

Ruthenium complexes bearing nile red chromophore and one of its derivative: Theoretical evaluation of PDT-related properties.

作者信息

Barretta Pierraffaele, Scoditti Stefano, Belletto Daniele, Ponte Fortuna, Vigna Vincenzo, Mazzone Gloria, Sicilia Emilia

机构信息

Department of Chemistry and Chemical Technologies, Università della Calabria, Arcavacata di Rende (CS), Italy.

出版信息

J Comput Chem. 2024 Sep 5;45(23):2034-2041. doi: 10.1002/jcc.27392. Epub 2024 May 11.

DOI:10.1002/jcc.27392

PMID:38733370

Abstract

The outcomes of DFT-based calculations are here reported to assess the applicability of two synthesized polypyridyl Ru(II) complexes, bearing ethynyl nile red (NR) on a bpy ligand, and two analogues, bearing modified-NR, in photodynamic therapy. The absorption spectra, together with the non-radiative rate constants for the S1 - Tn intersystem crossing transitions, have been computed for this purpose. Calculations evidence that the structural modification on the chromophore destabilizes the HOMO of the complexes thus reducing the H-L gap and, consequently, red shifting the maximum absorption wavelength within the therapeutic window, up to 620 nm. Moreover, the favored ISC process from the bright state involves the triplet state closest in energy, which is also characterized by the highest SOC value and by the involvement of the whole bpy ligand bearing the chromophore in delocalising the unpaired electrons. These outcomes show that the photophysical behavior of the complexes is dominated by the chromophore.

摘要

本文报道了基于密度泛函理论（DFT）计算的结果，以评估两种在联吡啶配体上带有乙炔基尼罗红（NR）的合成聚吡啶钌（II）配合物以及两种带有修饰尼罗红的类似物在光动力疗法中的适用性。为此，计算了吸收光谱以及S1 - Tn系间窜越跃迁的非辐射速率常数。计算结果表明，发色团上的结构修饰使配合物的最高占据分子轨道（HOMO）不稳定，从而减小了H-L能隙，进而使治疗窗口内的最大吸收波长红移至620 nm。此外，从明亮态出发的有利系间窜越过程涉及能量最接近的三重态，该三重态还具有最高的自旋-轨道耦合（SOC）值，并且整个带有发色团的联吡啶配体参与了未成对电子的离域。这些结果表明，配合物的光物理行为主要由发色团决定。

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带有尼罗红发色团及其衍生物之一的钌配合物：光动力疗法相关性质的理论评估

Ruthenium complexes bearing nile red chromophore and one of its derivative: Theoretical evaluation of PDT-related properties.

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