622-29-7

Basic information

• Product Name: N-BENZYLIDENEMETHYLAMINE
• Synonyms: N-METHYL-ALPHA-TOLUENEIMINE;N-BENZYLIDENEMETHYLAMINE;N-BENZALMETHYLAMINE;Benzaldehyde methylimine;Benzaldehyde N-methylimine;Benzalmethylamine;Benzylidenemethanamine;Benzylidenemethylamine
• CAS NO: 622-29-7
• Molecular Formula: C₈H₉N
• Molecular Weight: 119.16
• EINECS: 210-728-2
• Product Categories: Anilines, Aromatic Amines and Nitro Compounds;Building Blocks;Chemical Synthesis;Imines/Amidines;Nitrogen Compounds;Organic Building Blocks
• Mol File: 622-29-7.mol
• Article Data: 111

Chemical Properties

• Melting Point: 185 °C
• Boiling Point: 75-80 °C18 mm Hg(lit.)
• Flash Point: >230 °F
• Appearance: White/Crystalline Powder, Crystals, and/or Chunks
• Density: 0.967 g/mL at 25 °C(lit.)
• Vapor Pressure: 0.976mmHg at 25°C
• Refractive Index: n20/D 1.552(lit.)
• Storage Temp.: 2-8°C
• PKA: 5.00±0.50(Predicted)
• Sensitive: Moisture Sensitive
• BRN: 878278
• CAS DataBase Reference: N-BENZYLIDENEMETHYLAMINE(CAS DataBase Reference)
• NIST Chemistry Reference: N-BENZYLIDENEMETHYLAMINE(622-29-7)
• EPA Substance Registry System: N-BENZYLIDENEMETHYLAMINE(622-29-7)

Safety Data

• Hazard Codes: Xi
• Statements: 36/37/38
• Safety Statements: 26-36-37/39
• WGK Germany: 3
• F: 10-19-21-34
• TSCA: Yes
• Hazardous Substances Data: 622-29-7(Hazardous Substances Data)

Usage

Chemical Properties

CLEAR COLOURLESS TO VERY SLIGHTLY YELLOW LIQUID

Synthesis Reference(s)

Tetrahedron Letters, 25, p. 1023, 1984 DOI: 10.1016/S0040-4039(01)80090-3The Journal of Organic Chemistry, 50, p. 5382, 1985 DOI: 10.1021/jo00225a078

InChI:InChI=1/C8H9N/c1-9-7-8-5-3-2-4-6-8/h2-7H,1H3

Upstream product

• 4393-14-0 N-methylenebenzylamine 
• 51456-62-3 1-methyl-4,5-diphenyl-4,5-dihydro-1H-tetrazole 
• 3555-71-3 N-benzyl-N-chloromethylamine 
• 32366-25-9 1-azidoethylbenzene 
• 77329-69-2 C₁₁H₁₁⁽²⁾H₂NO 
• 36378-98-0 S-(dimethylamino)-S-phenyl(trans-2-phenyleth-1-enyl)oxosulfonium fluoroborate 
• 74-89-5 methylamine 
• 74-88-4 methyl iodide 
• 13426-94-3 N-methylbenzylamine hydrochloride 
• 7732-18-5 water 
• 100-52-7 benzaldehyde 
• 593-51-1 methylamine hydrochloride 
• 65398-48-3 methylammonium N-methylcarbamate 
• 111291-52-2 C₁₄H₁₄ClNO₃S 

Downstream Products

• 4372-44-5 methyl-(phenyl-pyridin-2-yl-methyl)-amine 
• 123-39-7 N-Methylformamide 
• 17061-66-4 N-(α-benzylidenamino-benzyl)-formamide 
• 6343-54-0 N-benzylformamide 
• 7500-45-0 N-benzylphenylacetamide 
• 103-81-1 Benzeneacetamide 
• 4458-62-2 1-methyl-4-phenylazetidin-2-one 
• 107683-15-8 3-methylamino-2,3-diphenyl-propionic acid ethyl ester 
• 39653-65-1 1-methyl-2,6-diphenyl-piperidin-4-one 
• 344334-23-2 1,3-dimethyl-4-phenyl-azetidin-2-one 
• 53662-76-3 4,9-dimethyl-5-(methylamino-phenyl-methyl)-1,6-dioxa-4,9-diaza-5λ⁵-phospha-spiro[4.4]nonane 
• 53662-77-4 2,2,4,7,7,9-hexamethyl-5-(methylamino-phenyl-methyl)-1,6-dioxa-4,9-diaza-5λ⁵-phospha-spiro[4.4]nonane 
• 42871-62-5 {[3-(4-Bromo-phenyl)-thioureido]-phenyl-methyl}-methyl-dithiocarbamic acid methyl ester 
• 42871-63-6 {[3-(4-Bromo-phenyl)-thioureido]-phenyl-methyl}-methyl-dithiocarbamic acid ethyl ester 

Relevant articles and documents

Luminescent monocyclometalated cationic gold(iii) complexes: Synthesis, photophysical characterization and catalytic investigations

Stable, luminescent, and cationic monocyclometalated gold(iii) monoaryl complexes of the type [(ppy)Au(FMes)(L)]+[OTf]- [L = 4-phenylpyridine (3), quinoline (4), 4-fluoroaniline (5), P(OMe)3 (6), PPh3 (7)], bearing different ancillary ligands, synthesized starting from the precursor complex [(ppy)Au(FMes)(OH2)] +[OTf]- (2) are reported. The preliminary assignment of the structure of the complexes by various nuclear magnetic resonance spectroscopy techniques and elemental analysis has been further corroborated by single-crystal X-ray diffraction studies. The complexes exhibit room temperature phosphorescence in solution, in neat solids and in doped PMMA films. Detailed photophysical investigations of the complexes in solution, in neat solids and in PMMA films revealed the successful tuning of the emission quantum yield ( p) based on the electronic properties of the ancillary ligands. The catalytic photo-oxidation of benzylic amines to their corresponding imines using molecular oxygen as the oxidant was successfully achieved in the presence of the luminescent Au(iii) complexes. It is also established that the photocatalytic performance was strongly governed by the electronic properties of the ancillary ligands on the photosensitizer as well as by the steric bulk of the substrates. This journal is the Partner Organisations 2014.

Monoamine Oxidase-Catalyzed Amine Oxidation in Organic Solvents

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Design, Synthesis, and Biological Evaluation of Novel 3-Aminomethylindole Derivatives as Potential Multifunctional Anti-Inflammatory and Neurotrophic Agents

The development of multifunctional molecules that are able to simultaneously interact with several pathological components has been considered as a solution to treat the complex pathologies of neurodegenerative diseases. Herein, a series of aminomethylindole derivatives were synthesized, and evaluation of their application for antineuroinflammation and promoting neurite outgrowth was disclosed. Our initial screening showed that most of the compounds potently inhibited lipopolysaccharide (LPS)-stimulated production of NO in microglial cells and potentiated the action of NGF to promote neurite outgrowth of PC12 cells. Interestingly, with outstanding NO/TNF-α production inhibition and neurite outgrowth-promoting activities, compounds 8c and 8g were capable of rescuing cells after injury by H2O2. Their antineuroinflammatory effects were associated with the downregulation of the LPS-induced expression of the inflammatory mediators inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2). Western blotting and immunofluorescence assay results indicated that the mechanism of their antineuroinflammatory actions involved suppression of the MAPK/NF-κB signal pathways. Further studies revealed that another important reason for the high comprehensive antineuroinflammatory activity was the anti-COX-2 capabilities of the compounds. All these results suggest that the potential biochemical multifunctional profiles of the aminomethylindole derivatives provide a new sight for the treatment of neurodegenerative diseases.

Stable carbamate pathway towards organic-inorganic hybrid perovskites and aromatic imines

Methyl ammonium methyl carbamate (MAC), formulated as CH3NH3+CH3NHCO2-, was synthesized by reacting liquid methylamine with supercritical CO2, and its structure was refined by single-crystal X-ray diffraction. MAC is a white crystalline salt and is as reactive as methylamine, and is a very efficient alternative to toxic methylamine. We were able to produce hybrid perovskite MAPbI3 (MA = methyl ammonium) by grinding MAC with PbI2 and I2 at room temperature, followed by storing the mixed powder. Moreover, this one-pot method is easily scalable for the large-scale synthesis of MAPbI3 in a small vessel. We have also investigated the reactivity of MAC towards aromatic aldehydes in the absence of solvent. The solventless reactions afforded imines as exclusive products with over 97% yield, which show higher selectivity than the methylamine-based synthesis. Complete conversions were typically accomplished within 3 h at 25 °C. The results of this study emphasize the importance of solid carbamates such as MAC to develop an environmentally friendly process for the synthesis of various amine-based materials on the industrial scale.