Issue 28, 2024, Issue in Progress

Photoluminescence mechanisms of BF2-formazanate dye sensitizers: a theoretical study

Abstract

Photodynamic therapy (PDT) is an alternative, minimally invasive treatment for human diseases such as cancer. PDT uses a photosensitizer to transfer photon energy directly to cellular 3O2 to generate 1O2 (Type II), the toxicity of which leads to cancer cell death. In this work, the photoluminescence mechanisms of a BF2-formazanate dye sensitizer (BF2-FORM) and its iodinated derivative (BF2-FORM-D) were studied using complementary theoretical approaches; the photoluminescence pathways in the S1 and T1 states were studied using density functional theory (DFT) and time-dependent (TD)-DFT methods, the kinetic and thermodynamic properties of the pathways using the transition state theory (TST), and the time evolution and dynamics of key processes using non-adiabatic microcanonical molecular dynamics simulations with surface-hopping dynamics (NVE-MDSH). Evaluation of the potential energy surfaces (PESs) in terms of the rotations of the phenyl rings suggested a pathway for the S1 → S0 transition for the perpendicular structure, whereas two pathways were anticipated for the T1 → S0 transition, namely, [T1 → S0]1 occurring immediately after the S1/T1 intersystem crossing (ISC) and [T1 → S0]2 occurring after the S1/T1 ISC and T1 equilibrium structure relaxation, with the T1 → S0 energy gap being comparable to the energy required for 3O21O2. The PESs also showed that because of the heavy-atom effect, BF2-FORM-D possessed a significantly smaller S1/T1 energy gap than BF2-FORM. The TST results revealed that at room temperature, BF2-FORM-D was thermodynamically more favorable than the parent molecule. Analysis of the NVE-MDSH results suggested that the librational motions of the phenyl rings play an important role in the internal conversion (IC) and ISC, and the S1/T1 ISC and T1 → S0 transitions could be enhanced by varying the irradiation wavelength and controlling the temperature. These findings can be used as guidelines to improve and/or design photosensitizers for PDT.

Graphical abstract: Photoluminescence mechanisms of BF2-formazanate dye sensitizers: a theoretical study

Supplementary files

Article information

Article type
Paper
Submitted
24 Mar 2024
Accepted
02 Jun 2024
First published
24 Jun 2024
This article is Open Access
Creative Commons BY license

RSC Adv., 2024,14, 20081-20092

Photoluminescence mechanisms of BF2-formazanate dye sensitizers: a theoretical study

P. Suwannakham, P. Panajapo, P. Promma, T. Khrootkaew, A. Kamkaew and K. Sagarik, RSC Adv., 2024, 14, 20081 DOI: 10.1039/D4RA02240H

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