2157-50-8

Usage

Uses

Used in Organic Synthesis:
PPO is utilized as a reagent in organic synthesis, particularly for the formation of oxime derivatives. Its unique chemical properties allow it to participate in a wide range of reactions, contributing to the synthesis of various organic compounds.
Used in Pharmaceutical Preparation:
PPO plays a role in the preparation of pharmaceuticals, serving as a chemical intermediate. Its presence in the synthesis process aids in the development of new drugs and medicines, potentially benefiting the medical field.
Used in Agriculture:
PPO has been studied for its potential applications in agriculture. Its unique chemical properties may contribute to the development of new agricultural products or improvements in existing ones, enhancing crop protection and yield.
Used in Materials Science:
In the field of materials science, PPO has been investigated for its potential use in creating new materials or improving existing ones. Its chemical properties may offer novel applications in material development, leading to advancements in various industries.

Upstream product

• 10467-10-4 ethylmagnesium iodide 
• 873-67-6 benzonitrile oxide 
• 93-55-0 1-phenyl-propan-1-one 
• 637-50-3 1-phenylpropene 
• 673-32-5 1-Phenylprop-1-yne 
• 81102-32-1 N-(1-phenylpropyl)hydroxylamine 
• 873-66-5 1-propenylbenzene 
• 766-90-5 cis-1-phenyl-1-propylene 
• 17336-66-2 propiophenone N-tosylhydrazone 
• 698-16-8 benzohydroximoyl chloride 
• 71-43-2 benzene 
• 108-03-2 1-Nitropropane 
• 12384-98-4 aci-1-nitropropane sodium salt 
• 103-65-1 phenylpropane 

Downstream Products

• 7764-13-8 diphenyl-2,2 methyl-3 aziridine 
• 99858-39-6 2-ethyl-3-methyl-2-phenyl-aziridine 
• 100368-47-6 3-methyl-2-phenyl-2-propyl-aziridine 
• 109496-69-7 propiophenone-((E)-O-picryl oxime ) 
• 57728-35-5 2-amino-1,1-diphenyl-1-propanol 
• 637-50-3 1-phenylpropene 
• 103-65-1 phenylpropane 
• 620-71-3 N-(phenyl)-2-methylacetamide 
• 6944-19-0 N,N'-diphenylpropionimidamide 
• 29076-84-4 propiophenone-imine 
• 40636-58-6 (1-phenyl-propyl)-(1-phenyl-propyliden)-amine 
• 2941-20-0 1-phenylpropylamine 
• 1208-09-9 (1-phenyl-propylidenaminooxy)-acetic acid 
• 110061-03-5 bis-(1-phenyl-propyl)-amine 

Relevant academic research and scientific papers

Zinc-Enabled Annulation of Trifluorodiazoethane with 2 H-Azirines to Construct Trifluoromethyl Pyrazolines, Pyrazoles, and Pyridazines

A diethylzinc-promoted unconventional annulation reaction of 2,2,2-trifluorodiazoethane with 2H-azirines is described. This transformation involves two [3 + 2] cycloaddition steps and one dinitrogen extrusion process in one pot, thus giving a broad array

TEMPO-Mediated Selective Synthesis of Isoxazolines, 5-Hydroxy-2-isoxazolines, and Isoxazoles via Aliphatic δ-C(sp3)-H Bond Oxidation of Oximes

Selective synthesis of three different bioactive heterocycles; isoxazolines, 5-hydroxy-2-isoxazolines and isoxazoles from the same starting material using TEMPO (2,2,6,6-Tetramethylpiperidin-1-oxyl) as a radical initiator is reported. Selectivity was achi

Rhodium(iii)-catalyzed asymmetric [4+1] spiroannulations of: O -pivaloyl oximes with α-diazo compounds

Chiral RhIII catalysts can catalyze the asymmetric [4+1] spiroannulation of O-pivaloyl oximes with α-diazo homophthalimides under redox-neutral and acid/base-neutral conditions, leading to formation of chiral spirocyclic imines as a result of C-H activation and N-O cleavage. The reaction proceeded with high efficiency and features broad substrate scope, mild reaction conditions, and high to excellent enantioselectivities. This journal is

A Domino Approach for the Synthesis of 4-Carboxamide Oxazolines from Azirines

A regio- and diastereoselective ring-expansion reaction of N-acylaziridines is described for the synthesis of 4-carboxamide oxazolines using InCl3. A domino Ugi-Joullié/ring-expansion reaction of arylphenylazirines, isocyanides, and carboxylic

Arylketones as Aryl Donors in Palladium-Catalyzed Suzuki-Miyaura Couplings

Herein, we report the arylation, alkylation, and alkenylation of aryl ketones via a palladium-catalyzed Suzuki-Miyaura cross-coupling reaction. The use of the pyridine-oxazoline ligand is the key to the cleavage of the unstrained C-C bond. The late-stage arylation of aryl ketones derived from drugs and natural products demonstrated the synthetic utility of this protocol.

Photocatalyzed Triplet Sensitization of Oximes Using Visible Light Provides a Route to Nonclassical Beckmann Rearrangement Products

Oximes are valuable synthetic intermediates for the preparation of a variety of functional groups. To date, the stereoselective synthesis of oximes remains a major challenge, as most current synthetic methods either provide mixtures of E and Z isomers or furnish the thermodynamically preferred E isomer. Herein we report a mild and general method to achieve Z isomers of aryl oximes by photoisomerization of oximes via visible-light-mediated energy transfer (EnT) catalysis. Facile access to (Z)-oximes provides opportunities to achieve regio- and chemoselectivity complementary to those of widely used transformations employing oxime starting materials. We show an enhanced one-pot protocol for photocatalyzed oxime isomerization and subsequent Beckmann rearrangement that enables novel reactivity with alkyl groups migrating preferentially over aryl groups, reversing the regioselectivity of the traditional Beckmann reaction. Chemodivergent N- or O- cyclizations of alkenyl oximes are also demonstrated, leading to nitrones or cyclic oxime ethers, respectively.

Synthesis of Functionalized Vinylsilanes via Metal-Free Dehydrogenative Silylation of Enamides

A novel method of metal-free dehydrogenative silylation of enamides has been developed. The desired functionalized vinylsilane products were obtained in moderate to good yield and with high stereoselectivities. This protocol displays good tolerance of various functionalities. Furthermore, the high chemoselectivity of this reaction enables us to introduce different unsaturated C-C moieties to the products. The ease of further derivatization of the products to other useful compounds also demonstrates the highly synthetic utility of the current methodology.

Access to pyrrolo[2,1-: A] isoindolediones from oxime acetates and ninhydrin via Cu(i)-mediated domino annulations

A copper-mediated domino condensation reaction of readily accessible oxime acetates with ninhydrin is reported to afford pyrrolo[2,1-a]isoindolediones via new C-C & C-N bond formations. A wide range of oxime acetates were shown to generally participate in the reaction to produce the condensed products in excellent yields. The necessary control experiments were performed and the mechanism is proposed to involve sequentially the formation of iminium radical via Cu-mediated N-O bond cleavage of oxime acetates, addition of the radical to ninhydrin and rearrangement via ring expansion.

Copper-Catalyzed Annulation of Oxime Acetates with α-Amino Acid Ester Derivatives: Synthesis of 3-Sulfonamido/Imino 4-Pyrrolin-2-ones

A copper-catalyzed annulation of oxime acetates and α-amino acid ester derivatives for the easy preparation of 4-pyrrolin-2-ones bearing a 3-amino group has been developed. This process features the oxidation of amines with oxime esters as the internal oxidant to produce the active 1,3-dinucleophilic and 1,2-dielectrophilic species concurrently. The subsequent nucleophilic cyclization realizes the efficient construction of 4-pyrrolin-2-one derivatives.

CuCl2-catalyzed N[sbnd]O bond cleavage of oxime esters: Approach to imidazoheterocycles and furo[3,2-c]chromenyl fused imidazoles

An articulate approach to a diverse set of imidazoheterocycles in good to high yields via a copper-catalyzed aza-annulation of several oxime esters with a group of 2-amino-azaarenes was developed. The above cyclization reaction probably proceeds via a single electron transfer process which embodies a new technique for creating two new C[sbnd]N bonds for imidazole ring synthesis. Gratifyingly, the implementation of this chemistry could be further stretched to the synthesis of a novel class of fused imidazoles bearing a furo[3,2-c]chromene moiety via a sequential C[sbnd]N bond formation, followed by C(sp2)-H functionalization/5-endo-dig-oxacyclization (C[sbnd]C and C[sbnd]O bonds) of in situ produced fused imidazoles with cyclic enynones in the presence of copper(II) as a π-electrophilic Lewis acid catalyst.