The Photolysis of 4-Hydroxybenzil and the Effect of Triethylamine on the Photolysis of Benzil and 4-Hydroxybenzil

Bunbury, David L.; Chan, Theresa Mak

doi:10.1139/v72-402

Cited by 19 publications

(2 citation statements)

References 14 publications

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“…In this regard, based upon the work of Lectka et al, , it is suggested that upon direct photolysis of benzil, an in situ formed triplet state reacts with SF to form benzoyl fluoride, benzoyl radical, and SRD. Aligning with this mechanism the photochemistry and photophysics of benzil and similar diaryl ketones are extremely well documented, − while photoexcited benzil is known to undergo efficient intersystem crossing to a long-lived triplet state that is reported to undergo chemical reactions. , Furthermore, the direct photolysis of SF under white light has been shown to lead to N + –F bond homolysis affording SRD.…”

Section: Resultsmentioning

confidence: 97%

Catalytic Light-Driven Strategy for Transforming Oximes to Carbonyls

White,

Dudding

2024

J. Org. Chem.

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Oxime and carbonyl functional groups serve as powerful chemical hubs for constructing complex synthetic targets and valuable molecular scaffolds. In furthering this value, we report a photopromoted catalytic deoximation protocol for converting oximes and their derivatives to carbonyl functional groups. This strategic approach benefits from the use of renewable light energy input and ambient air conditions, in addition to demonstrating good substrate scope, functional group tolerance, and product yields. In offering, insights into these reactivity mechanistic studies are communicated, and the value of this protocol is further shown through one-pot operations.

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Section: Resultsmentioning

confidence: 97%

Catalytic Light-Driven Strategy for Transforming Oximes to Carbonyls

White,

Dudding

2024

J. Org. Chem.

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“…The aim of our investigation is to inspect if benzil (1,2-diphenylethane-1,2-dione, 1 ) can be utilized for the photo-reduction of Cu 2+ salts. Benzil is one of the most common (and low cost) diketones and its photochemistry has been well characterized [ 28 , 29 ]; nevertheless, benzil has yet only seen limited use in photo-induced redox reactions with metal salts.…”

Section: Introductionmentioning

confidence: 99%

Benzil/triethylamine: a photo-reducing system for Cu2+

Schmallegger

Gescheidt

2018

Monatsh Chem

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We have investigated the photo-induced reduction of Cu2+–Cu0 using benzil/triethylamine mixtures. The formation of elemental Cu is indicated by the appearance of its characteristic plasmon absorption peaks at 515 nm and 620 nm. Importantly, the nature of the counterion of the Cu2+ salt affects the reduction process. In the presence of Cl−, the reduction proceeds faster than with SO42-. Photo-induced electron transfer between excited benzil and triethylamine leads to the benzil radical anion, which acts as the reducing agent for Cu2+ and generates Cu0.Graphical abstract Electronic supplementary materialThe online version of this article (10.1007/s00706-017-2085-7) contains supplementary material, which is available to authorized users.

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Preparation and photochemical properties of 4‐propenoylbenzil polymers

Lukáč

Hrdlovič

Schnabel

1994

Macro Chemistry & Physics

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4-Propenoylbenzil (PCOCO) obtained by dehydrochlorination of 4-(3-~hloropropanoyl)benzil(CICOCO) was homo-and copolymerized with styrene (St) and methyl methacrylate (MMA). The polymers strongly absorb UV light at wavelengths between 300 and 400 nm. The triplet-triplet absorption spectra of the homo-and copolymers and of ClCOCO are bathochromically shifted relative to the spectrum of unsubstituted benzil triplets. The triplets of the homopolymer have a lifetime shorter than that of ClCOCO and the copolymers, which is attributed to self-quenching. Similar conclusions were arrived at from emission measurements. Irradiation of the copolymer PCOCO/St in dilute solution at Ainc = 366 nm results in simultaneous crosslinking and mainchain degradation. Crosslinking is accomplished via combination of ketyl radicals formed by hydrogen abstraction of 1,2-dicarbonyl groups in side chains. Therefore, crosslinking is the predominant process in solutions of hydrogen-donating liquids such as tetrahydrofuran. Main-chain scission is a secondary photoreaction. It primarily affords the photooxidative decomposition of 1,2-dicarbonyl groups. Main-chain scission predominates over crosslinking in solvents not acting as hydrogen donors such as benzene. Generally, 0, retards crosslinking and enhances main-chain degradation.

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The Photolysis of 4-Hydroxybenzil and the Effect of Triethylamine on the Photolysis of Benzil and 4-Hydroxybenzil

Cited by 19 publications

References 14 publications

Catalytic Light-Driven Strategy for Transforming Oximes to Carbonyls

Catalytic Light-Driven Strategy for Transforming Oximes to Carbonyls

Benzil/triethylamine: a photo-reducing system for Cu2+

Preparation and photochemical properties of 4‐propenoylbenzil polymers

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