Dimensional Reduction Enhances Photodynamic Therapy of Metal–Organic Nanophotosensitizers

Luo, Taokun; Fan, Yingjie; Mao, Jianming; Yuan, Eric; You, Eric; Xu, Ziwan; Lin, Wenbin

doi:10.1021/jacs.2c00384

Cited by 55 publications

(39 citation statements)

References 49 publications

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“…As porphyrins are extensively studied for photodynamic therapy (PDT) of tumors, the 2D morphological characteristic of nanosheets would benefit the anti-tumor performance of porphyrin-based nanodrugs. 16,25 However, 2D nano-photosensitizers are relatively rare due to the lack of approaches to prepare water-soluble and biocompatible 2D materials. The 2D nanosheets also display a high photosensitizer loading capacity (78.9% by weight, see calculation in the ESI, † section 2) and good stability in cell culture media (see for TEM image of nanosheets), which are ideal properties for nanophotosensitizers.…”

Section: Cytotoxicity and In Vitro Pdtmentioning

confidence: 99%

“…J-Aggregation is potentially capable of driving porphyrins to assemble into 2-dimensional (2D) nanomaterials, which hold specific advantages in materials science for various applications. 7,16 Due to the strong hydrophobicity and tendency to form H-aggregates, it remains a significant challenge to regulate the stacking of porphyrins to form J-aggregates in water. 17 In our previous studies, adding polyphosphates has been demonstrated as an effective approach to inducing the aggregation of cationic conjugated molecules in water, e.g., H-aggregated porphyrins to assemble nanofibers.…”

Section: Introductionmentioning

confidence: 99%

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Tuning the aqueous self-assembly of porphyrins by varying the number of cationic side chains

et al. 2022

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Section: Cytotoxicity and In Vitro Pdtmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Tuning the aqueous self-assembly of porphyrins by varying the number of cationic side chains

et al. 2022

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“…21,22 The active sites in 2D MOLs are completely accessible to organic substrates. 23,24 Furthermore, the capping monocarboxylate modulators in the vertical direction of the SBUs can be modified with active sites via carboxylate exchange to form multifunctional MOLs for catalytic transformations. 25 This strategy has been successfully used to design MOLs for photoredox dual catalysis.…”

Section: ■ Introductionmentioning

confidence: 99%

“…In recent work, a porphyrinic Hf 12 -MOL was successfully synthesized by screening a library of monocarboxylate modulators. 24 Tuning the modulator from acetic acid to propionic acid downsized the product from a 3D MOF to a 2D MOL. Further development of synthetic methods for multifunctional MOLs should allow the design of a new generation of sustainable catalysts.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Despite their great potential for sustainable catalysis, the difficulty in MOL synthesis and characterization presents a significant bottleneck for the further development of MOL catalysts. To date, only Hf 6 and H 12 SBUs have been combined with a limited number of bridging ligands to construct MOLs. ,, Although several 2D MOFs based on Zn, Cu, and Al SBUs have been reported, − they lack stability or cannot be postsynthetically modified for catalytic applications. In recent work, a porphyrinic Hf 12 -MOL was successfully synthesized by screening a library of monocarboxylate modulators .…”

Section: Introductionmentioning

confidence: 99%

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Molecular Engineering of Metal–Organic Layers for Sustainable Tandem and Synergistic Photocatalysis

et al. 2023

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Metal–organic layers (MOLs), a monolayered version of metal–organic frameworks (MOFs), have recently emerged as a novel two-dimensional molecular material platform to design multifunctional catalysts. MOLs inherit the intrinsic molecular tunability of MOFs and yet have more accessible and modifiable building blocks. Here we report molecular engineering of six MOLs via modulated solvothermal synthesis between HfCl4 and three photosensitizing ligands followed by postsynthetic modification with two carboxylate-containing cobaloximes for tandem and synergistic photocatalysis. Morphological and structural characterization by transmission electron microscopy and atomic force microscopy and compositional analysis by inductively coupled plasma-mass spectrometry and nuclear magnetic resonance spectroscopy establish the MOLs as flat nanoplates with a periodic lattice structure of hexagonal symmetry. The MOLs efficiently catalyze tandem dehydrogenative coupling reactions and synergistic Heck-type coupling reactions. The most active MOL catalyst was used for the gram-scale synthesis of vesnarinone, a cardiotonic agent, in 80% yield with a turnover number of 400 and in eight consecutive reaction cycles without significant loss of activities.

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Formulating the Relationship Between Intermolecular Interactions and Photodynamic Effects Based on the Optical Regularity Exhibited by Rare Earth‐BODIPY Crystalline Frameworks System

Pan,

Jiang,

Gong

et al. 2024

Adv Funct Materials

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This research commenced with an exploration of how metal nodes in metal‐organic frameworks (MOFs) influence photodynamic therapy (PDT) outcomes. Ultimately, it is revealed that intermolecular interactions are the core mechanism determining the optical properties and PDT efficacy of MOFs. An advanced system of MOFs based on the integration of twelve rare earth ions (RE3+) with boron dipyrromethene (BODIPY)‐derived ligands is reported. Intriguingly, this series of MOFs exhibits a reverse relationship between the radius of RE3+ and PDT efficacy. Single‐crystal X‐ray diffraction analyses along with theoretical calculations indicate that varying RE3+ results in a spatial displacement of the ligands along the dipole direction, diminishing electrostatic (dipole–dipole) interactions while enhancing dispersion (π–π) interactions, thereby enhancing the generation of triplet excitons. Consequently, a novel parameter, Ae‐v = EvdW / Eint × 100%, is proposed to quantify the interplay between non‐radiative energy dissipation via electrostatic interactions and efficient energy utilization in generating singlet oxygen through dispersion interactions. Furthermore, with consistent acoustic sensitivity aligned with the sonoluminescence mechanism, RE‐DCBs are employed in sono‐photodynamic cancer therapy, attaining significant therapeutic results in tumor treatment during in vivo experiments.

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Dimensional Reduction Enhances Photodynamic Therapy of Metal–Organic Nanophotosensitizers

Cited by 55 publications

References 49 publications

Tuning the aqueous self-assembly of porphyrins by varying the number of cationic side chains

Tuning the aqueous self-assembly of porphyrins by varying the number of cationic side chains

Molecular Engineering of Metal–Organic Layers for Sustainable Tandem and Synergistic Photocatalysis

Formulating the Relationship Between Intermolecular Interactions and Photodynamic Effects Based on the Optical Regularity Exhibited by Rare Earth‐BODIPY Crystalline Frameworks System

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