3287-99-8

Basic information

• Product Name: Benzylamine hydrochloride
• Synonyms: BENZYLAMMONIUM CHLORIDE;BENZYLAMINE HCL;BENZYLAMINE HYDROCHLORIDE;ALPHA-AMINOTOLUENE HYDROCHLORIDE;PHENYLMETHYLAMINE HYDROCHLORIDE;Phenylmethanamine hydrochloride;Benzylamine hydrochloride ,99%;Benzylamine hydrochl
• CAS NO: 3287-99-8
• Molecular Formula: C₇H₁₀N*Cl
• Molecular Weight: 143.61
• EINECS: 221-943-6
• Mol File: 3287-99-8.mol
• Article Data: 103

Chemical Properties

• Melting Point: 262-263 °C(lit.)
• Boiling Point: 185 °C at 760 mmHg
• Flash Point: 60 °C
• Appearance: White/Crystals or Crystalline Powder
• Vapor Pressure: 0.713mmHg at 25°C
• Storage Temp.: Store below +30°C.
• Solubility: 506g/l (experimental)
• Water Solubility: SOLUBLE
• Sensitive: Hygroscopic
• Stability: Hygroscopic
• Merck: 14,1125
• BRN: 3594394
• CAS DataBase Reference: Benzylamine hydrochloride(CAS DataBase Reference)
• NIST Chemistry Reference: Benzylamine hydrochloride(3287-99-8)
• EPA Substance Registry System: Benzylamine hydrochloride(3287-99-8)

Safety Data

• Hazard Codes: Xn,Xi
• Statements: 22-37/38-41-36/37/38
• Safety Statements: 26-36/37/39-37/39
• WGK Germany: 3
• RTECS: DP5425000
• TSCA: Yes
• Hazardous Substances Data: 3287-99-8(Hazardous Substances Data)

Usage

Description

Benzylamine hydrochloride is an organic compound with the chemical formula C6H5CH2NH3Cl. It is a white crystalline powder that is soluble in water and exhibits amine-like properties. Benzylamine hydrochloride is commonly used as a reagent in various chemical and pharmaceutical applications due to its unique chemical structure and properties.

Uses

Used in Pharmaceutical Industry:
Benzylamine hydrochloride is used as an intermediate in the synthesis of various pharmaceutical compounds. Its amine group can be utilized in the formation of amide bonds, which are essential in the structure of many drugs.
Used in Chemical Industry:
Benzylamine hydrochloride is used as a reagent in the chemical industry for the production of various organic compounds. Its amine functionality can be employed in reactions such as alkylation, acylation, and reductive amination.
Used in Research and Development:
Benzylamine hydrochloride is used as a research compound in the development of new drugs and chemical processes. Its unique properties make it a valuable tool for studying various chemical reactions and mechanisms.
Used as an Inhibitor:
Benzylamine hydrochloride is used as an inhibitor of bovine serum oxidase, a key enzyme involved in the oxidation of various substrates. This application is particularly relevant in the study of enzyme kinetics and the development of novel inhibitors for therapeutic purposes.
Used as an Irritant:
Benzylamine hydrochloride is known to have irritant properties and can be used in the development of irritant tests for various applications, such as assessing the potential for skin irritation caused by chemicals or other substances.

Safety Profile

Poison by intravenous route.Moderately toxic by intraperitoneal route. When heated todecomposition it emits very toxic fumes of HCl, NH3, andNOx.

Purification Methods

Benzylamine hydrochloride [3287-99-8] M 143.6, m 248o (rapid heating). Crystallise the salt from water. [Beilstein 12 IV 2155.]

InChI:InChI=1/C7H9N.ClH/c8-6-7-4-2-1-3-5-7;/h1-5H,6,8H2;1H

Upstream product

• 75-36-5 acetyl chloride 
• 621-07-8 N,N-dibenzylhydroxylamine 
• 37622-18-7 thiourea hydrochloride 
• 121721-49-1 N-Benzyl-N'-(p-toluenesulfonyl)-2-chloroacetamidine 
• 100-51-6 benzyl alcohol 
• 7719-09-7 thionyl chloride 
• 60-29-7 diethyl ether 
• 100-46-9 benzylamine 
• 3378-73-2 1-phenyl-N-tritylethanamine 
• 5032-91-7 pentafluorophenyl dichlorophosphine 
• 104-54-1 3-Phenylpropenol 
• 55-21-0 benzamide 
• 62216-62-0 2,4-dibenzyl-2,4-diazabicyclo[3.1.0]hexane 
• 1485-70-7 N-benzylbenzamide 

Downstream Products

• 3173-56-6 benzyl isothiocyanate 
• 13556-71-3 N-benzyl-4-aminopyridine 
• 63086-36-2 2-(benzylamino)acetonitrile hydrochloride 
• 100-52-7 benzaldehyde 
• 103-67-3 benzyl-methyl-amine 
• 107456-85-9 2-benzylaminomethyl-4-[2]pyridyl-butyric acid 
• 51571-89-2 benzylammonium thiocyanate 
• 621-83-0 N-benzylthiourea 
• 29237-95-4 chloro-benzyl amine 
• 66497-32-3 benzyl-selenourea 
• 3218-02-8 cyclohexylmethylamine 
• 28957-72-4 N-benzyltropinone 
• 580-35-8 2,4,6-triphenylpyridine 
• 103-49-1 dibenzylamine 

Relevant articles and documents

Magnetocaloric effect and critical behavior in arylamine-based copper chloride layered organic-inorganic perovskite

Layered organic-inorganic hybrid perovskites have been the focus of much research regarding their optoelectronic and multiferroic properties. Here, we demonstrate the presence of a large magnetocaloric effect in the ferromagnetic layered perovskite phenylmethylammonium copper chloride ((PMA)2CuCl4) below the Curie temperature of ～9.5 K. We measure a magnetic entropy change ranging from 0.88 J/kg.K to 2.98 J/kg.K in applied fields of 10 kOe and 70 kOe, respectively. We also study the nature of the magnetic phase transition using critical isotherm analysis. The critical exponents are consistent with the 2D-XY spin model.

Selenoxide elimination triggers enamine hydrolysis to primary and secondary amines: A combined experimental and theoretical investigation

We discuss a novel selenium-based reaction mechanism consisting in a selenoxide elimination-triggered enamine hydrolysis. This one-pot model reaction was studied for a set of substrates. Under oxidative conditions, we observed and characterized the formation of primary and secondary amines as elimination products of such compounds, paving the way for a novel strategy to selectively release bioactive molecules. The underlying mechanism was investigated using NMR, mass spectrometry and density functional theory (DFT).

Cyclic (Alkyl)(amino)carbene Ligand-Promoted Nitro Deoxygenative Hydroboration with Chromium Catalysis: Scope, Mechanism, and Applications

Transition metal catalysis that utilizes N-heterocyclic carbenes as noninnocent ligands in promoting transformations has not been well studied. We report here a cyclic (alkyl)(amino)carbene (CAAC) ligand-promoted nitro deoxygenative hydroboration with cost-effective chromium catalysis. Using 1 mol % of CAAC-Cr precatalyst, the addition of HBpin to nitro scaffolds leads to deoxygenation, allowing for the retention of various reducible functionalities and the compatibility of sensitive groups toward hydroboration, thereby providing a mild, chemoselective, and facile strategy to form anilines, as well as heteroaryl and aliphatic amine derivatives, with broad scope and particularly high turnover numbers (up to 1.8 × 106). Mechanistic studies, based on theoretical calculations, indicate that the CAAC ligand plays an important role in promoting polarity reversal of hydride of HBpin; it serves as an H-shuttle to facilitate deoxygenative hydroboration. The preparation of several commercially available pharmaceuticals by means of this strategy highlights its potential application in medicinal chemistry.