62326-47-0

Basic information

• Product Name: 3-Buten-1-one, 1,3-diphenyl-
• Synonyms: 1,3-diphenyl-3-buten-1-one;3-Buten-1-one,1,3-diphenyl
• CAS NO: 62326-47-0
• Molecular Formula: C16H14O
• Molecular Weight: 222.287
• Mol File: 62326-47-0.mol

Chemical Properties

• CAS DataBase Reference: 3-Buten-1-one, 1,3-diphenyl-(CAS DataBase Reference)
• NIST Chemistry Reference: 3-Buten-1-one, 1,3-diphenyl-(62326-47-0)
• EPA Substance Registry System: 3-Buten-1-one, 1,3-diphenyl-(62326-47-0)

Safety Data

• Hazardous Substances Data: 62326-47-0(Hazardous Substances Data)

Upstream product

• 4894-24-0 3,5-diphenyl-5-methyl-4,5-dihydroisoxazole 
• 122-51-0 orthoformic acid triethyl ester 
• 98-86-2 acetophenone 
• 622-42-4 1-nitro-1-phenylmethane 
• 98-83-9 isopropenylbenzene 
• 125315-69-7 (±)-1,3-diphenylbut-3-en-1-ol 
• 100-47-0 benzonitrile 
• 3360-54-1 3-bromo-2-phenylprop-1-ene 
• 13735-81-4 1-styrenyloxytrimethylsilane 
• 100-52-7 benzaldehyde 
• 3420-52-8 1,4-Diphenylprop-3-en-1-one 
• 536-74-3 phenylacetylene 

Downstream Products

• 1221447-17-1 (E)-1,3-diphenylbut-3-en-1-one oxime 
• 1613247-66-7 5-(iodomethyl)-1-((4-nitrophenyl)sulfonyl)-3,5-diphenyl-4,5-dihydro-1H-pyrazole 
• 1613247-12-3 (R)-5-(iodomethyl)-1-((3-nitrophenyl)sulfonyl)-3,5-diphenyl-4,5-dihydro-1H-pyrazole 
• 1613247-67-8 5-(iodomethyl)-1-((3-nitrophenyl)sulfonyl)-3,5-diphenyl-4,5-dihydro-1H-pyrazole 
• 1613247-68-9 5-(iodomethyl)-3,5-diphenyl-1-tosyl-4,5-dihydro-1H-pyrazole 
• 1613247-14-5 (R)-1-((4-bromophenyl)sulfonyl)-5-(iodomethyl)-3,5-diphenyl-4,5-dihydro-1H-pyrazole 
• 1613247-69-0 1-((4-bromophenyl)sulfonyl)-5-(iodomethyl)-3,5-diphenyl-4,5-dihydro-1H-pyrazole 
• 1613246-82-4 (E)-N'-(1,3-diphenylbut-3-en-1-ylidene)-4-nitrobenzenesulfonohydrazide 
• 1613246-83-5 (E)-N'-(1,3-diphenylbut-3-en-1-ylidene)-3-nitrobenzenesulfonohydrazide 
• 1613246-84-6 (E)-N'-(1,3-diphenylbut-3-en-1-ylidene)-4-methylbenzenesulfonohydrazide 
• 1613246-85-7 (E)-4-bromo-N'-(1,3-diphenylbut-3-en-1-ylidene)benzenesulfonohydrazide 
• 1026-46-6 3,5-Diphenylpyridazine 

Relevant articles and documents

Visible Light-Promoted Recyclable Carbon Nitride-Catalyzed Dioxygenation of β,γ-Unsaturated Oximes

A visible-light-induced dioxygenation of β,γ-unsaturated oximes for the synthesis of diverse useful isoxazolines bearing a hydroxyl moiety was developed by employing graphitic carbon nitride (g-C3N4) as a heterogeneous photocatalyst under an air atmosphere. Noted that, the eminent advantages of this metal-free protocol include step economy, easy operation, a recyclable photocatalyst, external reductant-/oxidant-free and mild reaction conditions. Additionally, mechanistic studies indicated hydroxyl radical was generated under the photocatalysis of g-C3N4.

Asymmetric Alkoxy- and Hydroxy-Carbonylations of Functionalized Alkenes Assisted by β-Carbonyl Groups

As a fundamental type of carbonylation reaction, the alkoxy- and hydroxy-carbonylation of unsaturated hydrocarbons constitutes one of the most important industrial applications of homogeneous catalysis. However, owing to the difficulties in controlling multi-selectivities for asymmetric hydrocarbonylation of alkenes, this reaction is typically limited to vinylarenes and analogues. In this work, a highly efficient asymmetric alkoxy- and hydroxy-carbonylation of β-carbonyl functionalized alkenes was developed, providing practical and easy access to various densely functionalized chiral molecules with high optical purity from broadly available alkenes, CO, and nucleophiles (>90 examples, 84–99 % ee). This protocol features mild reaction conditions and a broad substrate scope, and the products can be readily transformed into a diverse array of chiral heterocycles. Control experiments revealed the key role of the β-carbonyl group in determining the enantioselectivity and promoting the activity, which facilitates chiral induction by coordination to the transition metal as rationalized by DFT calculations. The strategy of utilizing an innate functional group as the directing group on the alkene substrate might find further applications in catalytic asymmetric hydrocarbonylation reactions.

Copper-Catalyzed Aerobic Cyclization of β,γ-Unsaturated Hydrazones with Concomitant CC Bond Cleavage

A Cu-catalyzed aerobic oxidative cyclization of β,γ-unsaturated hydrazones for the preparation of pyrazole derivatives has been developed. The hydrazonyl radical promoted the cyclization, along with a concomitant CC bond cleavage of β,γ-unsaturated hydrazones. This process has been verified via several control experiments, including a radical-trapping study, an 18O-labeling method, and the identification of the possible byproducts. The advantages of this reaction include operational simplicity, a broad reaction scope, and a mild selective reaction process.

Enantioselective Synthesis of Isoxazolines Enabled by Palladium-Catalyzed Carboetherification of Alkenyl Oximes

Reported here is a highly efficient Pd/Xiang-Phos catalyzed enantioselective carboetherification of alkenyl oximes with either aryl or alkenyl halides, delivering various chiral 3,5-disubstituted and 3,5,5-trisubstituted isoxazolines in good yields with u

A Copper Catalyst with a Cinchona-Alkaloid-Based Sulfonamide Ligand for Asymmetric Radical Oxytrifluoromethylation of Alkenyl Oximes

A copper-catalyzed asymmetric radical oxytrifluoromethylation of alkenyl oxime and Togni's reagent has been successfully developed, thereby providing straightforward access to CF3-containing isoxazolines bearing α-tertiary stereocenters with excellent yield and enantioselectivity. The key to success is the rational design of cinchona-alkaloid-based sulfonamides as neutral/anionic hybrid ligands to effectively control the stereochemistry in copper-catalyzed reactions involving free alkyl radical species. The utility of this method is illustrated by efficient transformation of the products into useful chiral CF3-containing 1,3-aminoalcohols.

Rhodium-Catalyzed Enantioconvergent Isomerization of Homoallylic and Bishomoallylic Secondary Alcohols

We present herein an unprecedented enantioselective isomerization of homoallylic and bishomoallylic secondary alcohols, catalyzed by a commercially available rhodium-complex and a base. This catalytic redox-neutral process provides an effective access to chiral ketones in high efficiency and enantioselectivity, without the use of any stoichiometric reagent or generation of any waste. For the reaction of homoallylic alcohols, this system achieved not only a stereoconvergent access to chiral ketones bearing a β-stereocenter (up to 95%, 86% ee) but also a concomitant oxidative kinetic resolution of the alcohol substrates (S > 20). In the case of bishomoallylic alcohols, an intriguing ligand-induced divergent reactivity was observed. A terminal-to-internal alkene isomerization promoted by Rh/L7 followed by redox isomerization using Rh/BINAP system produced chiral ketones bearing a γ-stereocenter with high yield and enantioselectivity. Mechanistic studies provided strong support for the redox-isomerization pathway with chain walking of the key alkyl-Rh intermediate.

Copper-catalyzed radical oxytrifluoromethylation of alkenyl oximes at ambient temperature

A mild and efficient copper-catalyzed radical oxytrifluoromethylation reaction of alkenyl oximes was successfully developed. The method provides a straightforward access to a wide range of CF3-containing isoxazolines in good to excellent yields.

Copper-Promoted 6- endo-trig Cyclization of β,γ-Unsaturated Hydrazones for the Synthesis of 1,6-Dihydropyridazines

A novel and efficient strategy for the synthesis of 1,6-dihydropyridazines via copper-promoted 6-endo-trig cyclization of readily available β,γ-unsaturated hydrazones have been developed. A series of 1,6-dihydropyridazines have been synthesized by this method with good yields, high functional group tolerance, and remarkable regioselectivity under mild conditions. Importantly, the 1,6-dihydropyridazines can be efficiently converted to biologically important pyridazines in the presence of NaOH.

Unprecedented alkylation of silicon enolates with alcohols via carbenium ion formations catalyzed by tin hydroxide-embedded montmorillonite

The solid acid, tin hydroxide-embedded montmorillonite, catalyzes the unprecedented alkylation of various silicon enolates with primary, secondary and tertiary benzylic alcohols as well as secondary allylic alcohols. The acid catalysis of Sn-Mont was not only higher than that of the other ion-exchanged montmorillonites (M-Mont; M?=?H, Ti, Fe and Al), but also higher than that of the typical homogeneous acid catalysts such as BF3·OEt2, TMSOTf and TfOH.

Selective Synthesis of Silacycles by Borane-Catalyzed Domino Hydrosilylation of Proximal Unsaturated Bonds: Tunable Approach to 1,n-Diols

The tris(pentafluorophenyl)boron-catalyzed domino hydrosilylation of substrates carrying unsaturated functionalities in a proximal arrangement is presented to produce silacycles. Excellent levels of efficiency and selectivity were achieved in the cyclization by the deliberate choice of the hydrosilane reagents. The key to successful cyclic hydrosilylation is the reactivity enhancement of the second intramolecular hydrosilylation by a proximity effect. Not only dienes but also enones, enynes, ynones and enimines readily afford medium-sized silacycles under convenient and mild conditions. The cyclization proceeds with acceptable diastereoselectivity mainly controlled by the conformational bias towards inducing additional stereogenic centers. The silacycles obtained from this reaction were converted to 1,n-diols or 1,n-amino alcohols upon oxidation, thus rendering the present cyclization a powerful tool for accessing synthetically valuable building blocks. (Figure presented.).