21461-46-1

Usage

Type of compound

Organic compound

Key functional group

Nitro group (NO2) attached to a benzene ring

Usage

Organic synthesis, precursor for pharmaceuticals, dyes, and other organic compounds, key intermediate in the production of polymers and resins

Chemical reactivity

Ability to undergo a variety of chemical reactions, making it a versatile and valuable compound in organic chemistry.

Upstream product

• 75-52-5 nitromethane 
• 110-58-7 n-Pentylamine 
• 66-99-9 β-naphthaldehyde 
• 939-26-4 2-bromomethylnaphthyl bromide 
• 91-57-6 2-Methylnaphthalene 
• 199285-79-5 1-(naphthalen-2-yl)-2-nitroethan-1-ol 
• 827-54-3 2-naphthylethylene 
• 49711-14-0 (E)-3-(naphthalen-2-yl)acrylic acid 
• 2972-84-1 2-naphthylmethylidenemalononitrile 
• 51557-26-7 3-(2-naphthyl)acrylic acid 
• 13577-85-0 N,N-dimethyl-2-naphthylcarboxamide 
• 939-27-5 2-ethylnaphthalene 

Downstream Products

• 141944-28-7 N,N-dimethyl-5-(2-naphthalenyl)-6-nitro-2-cyclohexen-1-amine 
• 66-99-9 β-naphthaldehyde 
• 141944-42-5 N-<2-(dimethylamino)-6-(2-naphthalenyl)-3-cyclohexen-1-yl>benzamide 
• 141944-49-2 1,4,4a,10b-tetrahydro-N,N-dimethyl-4-benzophenanthridinamine 
• 141944-68-5 Dimethyl-((4S,12bS)-6-phenyl-1,4,4a,5,6,12b-hexahydro-benzo[j]phenanthridin-4-yl)-amine 
• 748788-76-3 (S)-2-((R)-1-naphthalen-2-yl-2-nitro-ethyl)-cyclohexanone 
• 1177429-38-7 C₂₄H₂₂FNO₅ 

Relevant academic research and scientific papers

Short asymmetric syntheses of bioactive β-aryl ethanolamine derivatives via the highly diastereoselective delta lactol oxy-Michael addition

Short, stereoselective and efficient total syntheses of the bioactive β-aryl ethanolamine derivatives (R)-tembamide, (R)-aegeline and (R)-pronethalol have been achieved using the highly diastereoselective oxy-Michael addition of 'naked' delta lactol anion

Metal-Free Deoxygenation of Chiral Nitroalkanes: An Easy Entry to α-Substituted Enantiomerically Enriched Nitriles

A metal-free, mild and chemodivergent transformation involving nitroalkanes has been developed. Under optimized reaction conditions, in the presence of trichlorosilane and a tertiary amine, aliphatic nitroalkanes were selectively converted into amines or nitriles. Furthermore, when chiral β-substituted nitro compounds were reacted, the stereochemical integrity of the stereocenter was maintained and α-functionalized nitriles were obtained with no loss of enantiomeric excess. The methodology was successfully applied to the synthesis of chiral β-cyano esters, α-aryl alkylnitriles, and TBS-protected cyanohydrins, including direct precursors of four active pharmaceutical ingredients (ibuprofen, tembamide, aegeline and denopamine).

Catalytic Asymmetric Construction of Tertiary Carbon Centers Featuring an α-Difluoromethyl Group with CF2H-CH2-NH2as the "building Block"

We report here for the first time a novel difluoromethylated ketimine building block condensed by thioisatin and difluoroethylamine, offering efficient access to a broad range of enantioenriched products bearing difluoroethylamine units (27 examples, ≤98% yield, >99% ee) in the presence of quinine-derived squaramide. Further transformation of the intermediate would generate a variety of versatile functional blocks like α-difluoromethyl amines, β-amino acid, and β-diamine with retention of the enantiomeric excess at the difluoromethyl-bound carbon.

Dipolar HCP materials as alternatives to DMF solvent for azide-based synthesis

Hypercrosslinked polymers HCP-DMF and HCP-DMF-SO3H containing abundant and flexible DMF moieties were designed and synthesized. Benefitting from the solvation microenvironment provided by the pseudo-DMF moities, the polar HCPs manifested outstanding performances in the conversions of NaN3 to benzylic azides and 1,2,3-triazoles in EtOH (95%), respectively, avoiding the use of risky DMF and improving the separation processes of the products.

Organocatalytic Asymmetric Synthesis of Aza-Spirooxindoles via Michael/Friedel-Crafts Cascade Reaction of 1,3-Nitroenynes and 3-Pyrrolyloxindoles

An asymmetric [3+3] cyclization of nitroenynes and 3-pyrrolyloxindoles has been realized with a chiral bifunctional squaramide catalyst. This Michael/Friedel-Crafts cascade strategy provides a facile and efficient access to enantioenriched polycyclic aza-spirooxindoles with 32-95% isolated yields and excellent stereocontrol under mild reaction conditions.

tert-Butyl Nitrite Mediated Nitro-Nitratosation of Internal Alkenes

In an oxygen atmosphere tert-butyl nitrite (TBN) reacts with unsymmetrical internal benzylic alkenes giving nitro-nitratosation product exclusively. The γ-diaryl-substituted styrenes provided better yields compared to γ-alkyl-aryl-substituted styrenes. The higher yields for the former type of substrates is possibly dictated by the additional stability of benzylic radical due to the anchimeric assistance imparted by the γ-substituted phenyl ring. During oxidative nitration, the nitro (NO2) group adds at the non-benzylic site, whereas the nitrato group (ONO2) is attached at the relatively stable benzylic position. Under similar reaction conditions, α,β-unsaturated carboxylic acids, afforded nitroalkenes as the sole product.

Preparation method of beta-trans-nitroolefin

The invention relates to a preparation method of beta-trans-nitroolefin. The method comprises: sequentially adding an olefin compound, a nitration reagent and a solvent into a reaction container, mixing the substances uniformly, and carrying out constant temperature reaction for 18h under an illumination condition to obtain a reaction solution; and sequentially carrying out drying, concentration and column chromatography treatment on the reaction solution to obtain the beta-trans-nitroolefin compound. The method is simple and practicable, low in cost and high in product yield, can realize large-scale production, and has good industrial application prospects in the aspects of functional organic material, bioactive compound and drug synthesis.

Ionic-Liquid Controlled Nitration of Double Bond: Highly Selective Synthesis of Nitrostyrenes and Benzonitriles

Unprecedented in literature, the conversion of aryl alkenes into β-nitrostyrenes (2) or benzonitriles (3) with sodium nitrite can be governed by an appropriate choice of ionic liquid (IL) medium. A general trend was found for the selectivity of these processes, which depends on the nature of IL, with imidazolium-based ILs, such as [Bmim]Cl, that favor the C–H nitration leading to β-nitrostyrenes, while tetraalkylammonium-based ILs, such as TBAA, privilege the C=C bond cleavage affording benzonitriles. Besides a substrate scope, mechanistic hypotheses were provided on the origin of the different selectivity in the two kinds of ILs, based on their own tunable properties such as polarity, viscosity, and solvent cage effects.

Geometrically Selective Denitrative Trifluoromethylthiolation of β-Nitrostyrenes with AgSCF3for (E)-Vinyl Trifluoromethyl Thioethers

An efficient copper(II)-promoted denitrative trifluoromethylthiolation under mild reaction conditions has been developed for vinyl trifluoromethyl thioethers to construct Cvinyl-SCF3 bonds with stable AgSCF3 as a source of the trifluoromethylthio. This reaction system tolerates a broad range of functional groups to commendably achieve a high product yield and excellent stereoselectivity of E/Z.

Asymmetric synthesis of tetrahydropyran[3,2-c]quinolinones via an organocatalyzed formal [3 + 3] annulation of quinolinones and MBH 2-naphthoates of nitroolefin

An efficient asymmetric and enantio-swithchable organocatalytic [3 + 3] annulation reaction using MBH-2-naphthoates of nitroalkenes and 4-hydroxyquinolin-2(1H)-ones has been developed. Densely substituted tetrahydropyrano[3,2-c]quinolinones scaffolds with two adjacent stereogenic centers are obtained with high yield (up to 95% yield) and good stereoselectivities (up to >20:1 dr and 96% ee) in an enantio-switchable manner. Furthermore, gram scale synthesis was achieved and the nitro group could easily transform into an amino group without any appreciable loss in the diastereo- and enantioselectivity.