Nanoaggregates of <font>Mn</font>(III)tetraperfluorophenylporphyrin: a greener approach for allylic oxidation of olefins

Aggarwal, Amit; Singh, Sunaina; Drain, Charles Michael

doi:10.1142/s1088424611004130

Cited by 9 publications

(12 citation statements)

References 52 publications

(65 reference statements)

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“…Supramolecular Por catalysts are designed to prevent self-oxidative degradation and to enhance substrate selectivity for quicker catalysis and better TON. 52,53 To minimize oxidative damage and to develop metalloPors 139–143 with more robust structures, our group prepared aggregated metalloPors into organic nanoparticles (ONP). 52,53 …”

Section: Substituted Fluorinated Porphyrinoids For Application In Matmentioning

confidence: 99%

“…Our group 52,53 has published a green chemistry approach to develop ONP from substituted metalloPors for oxidative catalysis of olefins and alkenes. These 10–30 nm ONP are easily formed by injecting the metalloPor into a host solvent such as DMSO or DMF into water while vigorously mixing.…”

Section: Substituted Fluorinated Porphyrinoids For Application In Matmentioning

confidence: 99%

“…42,48–51 Appending exocyclic motifs onto the redox active metalloporphyrinoids results in molecules and materials with improved catalytic properties for organic transformations. 52,53 This review will focus mainly on the nucleophilic substitution of fluorine analogues belonging to Pors, Pcs, Chls, Cors, Bacs and Ibacs. We will discuss their physicochemical as well as biomedical and material properties and applications.…”

Section: Introductionmentioning

confidence: 99%

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Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

et al. 2016

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Porphyrinoids are robust heterocyclic dyes studied extensively for their applications in medicine and as photonic materials because of their tunable photophysical properties, diverse means of modifying the periphery, and the ability to chelate most transition metals. Commercial applications include their use as phthalocyanine dyes in optical discs, porphyrins in photodynamic therapy, and as oxygen sensors. Most applications of these dyes require exocyclic moieties to improve solubility, target diseases, modulate photophysical properties, or direct the self-organization into architectures with desired photonic properties. The synthesis of the porphyrinoid depends on the desired application, but the de novo synthesis often involves several steps, is time consuming, and results in low isolated yields. Thus, the application of core porphyrinoid platforms that can be rapidly and efficiently modified to evaluate new molecular architectures allows researchers to focus on the design concepts rather than the synthesis methods, and opens porphyrinoid chemistry to a broader scientific community. We have focused on several widely available, commercially viable porphyrinoids as platforms: meso-perfluorophenylporphyrin, perfluoro-phthalocyanine, and meso-perfluorophenylcorrole. The perfluorophenylporphyrin is readily converted to the chlorin, bacteriochlorin, and isobacteriochlorin. Derivatives of all six of these core platforms can be efficiently and controllably made via mild nucleophilic aromatic substitution reactions using primary S, N, and O nucleophiles bearing a wide variety of functional groups. The remaining fluoro groups enhance the photo and oxidative stability of the dyes and can serve as spectroscopic signatures to characterize the compounds or in imaging applications using 19F NMR. This review provides an overview of the chemistry of fluorinated porphyrinoids that are being used as a platform to create libraries of photo-active compounds for applications in medicine and materials.

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Section: Substituted Fluorinated Porphyrinoids For Application In Matmentioning

confidence: 99%

Section: Substituted Fluorinated Porphyrinoids For Application In Matmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

et al. 2016

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“…Notably, in almost all reports perfluoro aryl or alkyl porphyrins, which stabilize the porphyrin nanoparticles toward self‐oxidative degradation, have been used. However, in some conditions they decomposed completely even in the presence of O 2 8d,16. Moreover, invaluable oxyfunctionalization of less reactive saturated hydrocarbons has not been reported in these studies.…”

Section: Resultsmentioning

confidence: 84%

Nanoaggregates of Simple Mn Porphyrin Complexes as Catalysts for the Selective Oxidation of Hydrocarbons

2013

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A stable suspension of simple manganese(III) meso‐tetraphenylporphyrin nanoaggregates was prepared by a host–guest procedure, in which ethanol and water are used as “green” solvents. The organic nanoparticles were studied by dynamic light scattering (DLS), AFM, and UV/Vis and fluorescence spectroscopy. The results indicate that the nanoaggregates have a spherical morphology with sizes between 15–40 nm. The epoxidation of olefins and oxygenation of saturated hydrocarbons by PhI(OAc)2 were efficiently enhanced with excellent selectivity under the influence of simple Mn(TPP)OAc (TPP = meso‐tetraphenylporphyrin) nanoparticles. Enhanced stabilities and activities were achieved with nanostructured Mn catalysts compared to those of the individual counterparts in solution according to turnover numbers and UV/Vis studies. The title nanocatalyst facilitates a greener reaction because the reaction solvent is a water/ethanol mixture and PhI(OAc)2 is safe to use. The efficiency of the oxidation system depends critically upon the steric hindrances and electronic structures of both nitrogen donor ligands and porphyrin nanoparticles.

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“…Formation of supramolecular systems of porphyrinoids is another approach to increase their robustness toward selfoxidative degradation, while also enhancing substrate selectivity for better TON (49)(50)(51)(52). To this end, we have reported the formation of aggregates of various metalloporphyrinoids to form organic nanoparticles (ONP) and investigated their catalytic activity for olefinic oxidation reactions (50)(51)(52)(53)(54). We have also investigated the catalytic activities of TPPF 20 derivatives prepared by substituting the parafluoro group with a long fluorinated alkyl chain (Fig.…”

Section: Catalysismentioning

confidence: 99%

Applications of Fluorous Porphyrinoids: An Update^†

Aggarwal

Bhupathiraju

Farley

et al. 2021

Photochem & Photobiology

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Porphyrins and related macrocycles have been studied broadly for their applications in medicine and materials because of their tunable physicochemical, optoelectronic and magnetic properties. In this review article, we focused on the applications of fluorinated porphyrinoids and their supramolecular systems and summarized the reports published on these chromophores in the past 5-6 years. The commercially available fluorinated porphyrinoids: meso-perfluorophenylporphyrin (TPPF 20 ) perfluorophthalocyanine (PcF 16 ) and meso-perfluorophenylcorrole (CorF 15 ) have increased photo and oxidative stability due to the presence of fluoro groups. Because of their tunable properties and robustness toward oxidative damage these porphyrinoidbased chromophores continue to gain attention of researchers developing advanced functional materials for applications such as sensors, photonic devices, component for solar cells, biomedical imaging, theranostics and catalysts.

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Nanoaggregates of Mn(III)tetraperfluorophenylporphyrin: a greener approach for allylic oxidation of olefins

Cited by 9 publications

References 52 publications

Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

Nanoaggregates of Simple Mn Porphyrin Complexes as Catalysts for the Selective Oxidation of Hydrocarbons

Applications of Fluorous Porphyrinoids: An Update^†

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Nanoaggregates of Mn(III)tetraperfluorophenylporphyrin: a greener approach for allylic oxidation of olefins

Cited by 9 publications

References 52 publications

Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

Fluorinated porphyrinoids as efficient platforms for new photonic materials, sensors, and therapeutics

Nanoaggregates of Simple Mn Porphyrin Complexes as Catalysts for the Selective Oxidation of Hydrocarbons

Applications of Fluorous Porphyrinoids: An Update†

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Applications of Fluorous Porphyrinoids: An Update^†