627-12-3

Usage

Uses

Used in Pharmaceutical Industry:
N-PROPYLCARBAMATE is used as an intermediate compound for the synthesis of various pharmaceutical products. Its chemical properties allow it to be a key component in the development of drugs with specific therapeutic effects.
Used in Chemical Synthesis:
In the chemical industry, N-PROPYLCARBAMATE is used as a building block for the synthesis of other organic compounds. Its versatility as a white solid makes it a valuable asset in creating a wide range of chemical products.
Used in Research and Development:
N-PROPYLCARBAMATE serves as a valuable research tool in the field of organic chemistry. Its unique properties and reactivity make it an essential component in the development of new chemical processes and the study of various chemical reactions.
Used in Pesticide Industry:
N-PROPYLCARBAMATE is used as a metabolite in the development of certain pesticides. Its properties allow it to be an effective component in the formulation of products designed to control pests in agriculture and other industries.
Used in Environmental Applications:
N-PROPYLCARBAMATE can be utilized in environmental applications, such as soil remediation and water treatment, due to its ability to interact with pollutants and contaminants. Its chemical properties make it a potential candidate for the development of eco-friendly solutions to environmental challenges.

Safety Profile

Moderately toxic by ingestion and subcutaneous routes. An experimental teratogen. Questionable carcinogen with experimental neoplas tigenic and tumorigenic data. Mutation data reported. When heated to decomposition it emits toxic fumes of NOx. See also CARBAMATES.

InChI:InChI=1/C4H9NO2/c1-2-3-7-4(5)6/h2-3H2,1H3,(H2,5,6)

Upstream product

• 71-23-8 propan-1-ol 
• 420-05-3 cyanic acid 
• 16326-62-8 nitrobiuret 
• 57-13-6 urea 
• 109-61-5 propoxycarbonyl chloride 
• 1768-37-2 isopropyl cyanate 
• 2158-03-4 1-piperidinecarboxamide 
• 88-89-1 2,4,6-Trinitrophenol 
• 2911-21-9 2,4-dioxo-6-methyl-3,4-dihydro-2H-1,3-oxazine 
• 917-61-3 sodium isocyanate 
• 590-28-3 potassium cyanate 
• 64-10-8 phenyl carbamate 
• 603-54-3 N,N-diphenylurea 
• 625-52-5 N-Ethylurea 

Downstream Products

• 623-96-1 Dipropyl carbonate 
• 71-23-8 propan-1-ol 
• 187737-37-7 propene 
• 463-79-6 carbonic-acid 
• 5532-90-1 n-propyl N-phenylcarbamate 
• 63379-16-8 1-propyl (4-methylphenyl)carbamate 
• 90870-23-8 propyl N-(4-nitrophenyl)carbamate 
• 25216-27-7 1-propyl (naphthalene-1-yl)carbamate 
• 25203-35-4 1-propyl (4-bromophenyl)carbamate 
• 121449-90-9 1-propyl (4-chlorophenyl)carbamate 
• 73262-65-4 1-propyl (2-methylphenyl)carbamate 
• 91247-72-2 1-propyl (4-methoxyphenyl)carbamate 
• 107-03-9 1-thiopropane 

Relevant academic research and scientific papers

Triazinetriamine-derived porous organic polymer-supported copper nanoparticles (Cu-NPs@TzTa-POP): an efficient catalyst for the synthesis of: N -methylated products via CO2fixation and primary carbamates from alcohols and urea

In recent times, carbon dioxide fixation has received much attention for its potential application as an abundant C1 source and a range of important fine chemicals can be manufactured via this fixation. Here, a copper nanoparticle-decorated porous organic polymer-based (Cu-NPs@TzTa-POP) material was prepared by a simple in situ process. The catalyst was characterized by various techniques such as UV-vis spectra, FTIR spectra, HR-TEM, PXRD, N2 adsorption-desorption, TG-DTA, XPS, and AAS analysis. The synthesized heterogeneous catalyst showed excellent activity in an atmospheric carbon dioxide fixation reaction to produce N-methylated products from aromatic/heterocyclic amines in the presence of polymethyl-hydrosiloxane (PMHS) as the reducing agent at 80 °C within 12 h of the reaction. Through this catalytic N-methylation reaction, we obtained 98% yield of the product with turnover frequency ranging from 18 to 42 h-1. The catalyst is also very stable for the formation of primary carbamates from alcohols using the eco-friendly carbonylating agent, urea. Diverse alcohols (such as benzylic alcohols, phenols, heterocyclic alcohols, as well as aliphatic alcohols) showed much acceptance to this catalytic reaction and produced moderate to excellent yields of the respective carbamate products under ambient reaction conditions. Moreover, Cu-NPs@TzTa-POP is effortlessly recyclable and reusable without the extensive loss of active copper metal centres for many catalytic rounds (up to six catalytic rounds were examined).

An Fe3O4@SiO2/Schiff base/Cu(ii) complex as an efficient recyclable magnetic nanocatalyst for selective mono: N-arylation of primary O-alkyl thiocarbamates and primary O-alkyl carbamates with aryl halides and arylboronic acids

An efficient, convenient and novel method for the selective mono N-arylation of primary O-alkyl thiocarbamates and primary O-alkyl carbamates with aryl halides and arylboronic acids in the presence of a recyclable magnetic Cu(ii) nanocatalyst is described. A variety of mono N-arylated O-alkyl thiocarbamates and O-alkyl carbamates were prepared in good to excellent yields with a broad range of aryl coupling partners. The magnetic nanocatalyst can be easily recovered with an external magnetic field and reused at least five times without noticeable leaching or loss of its catalytic activity. This cost-effective and eco-friendly methodology has some other advantages, such as easy preparation of the catalyst, simple workup procedure, and easy purification, which makes this protocol interesting for the users in various fields of pharmacology and biotechnology systems.

Superparamagnetic Fe3O4 Nanoparticles in a Deep Eutectic Solvent: An Efficient and Recyclable Catalytic System for the Synthesis of Primary Carbamates and Monosubstituted Ureas

Superparamagnetic Fe3O4 nanoparticles were used to synthesize various primary carbamates as well as monosubstituted and N,N-disubstituted ureas. This efficient phosgene-free process used urea as an eco-friendly carbonyl source in the presence of a biocompatible deep eutectic solvent (DES) to provide an inexpensive and attractive route that afforded the products in moderate to excellent yields. The employed DES serves both a catalytic role and as the green reaction medium. The magnetic nanocatalyst and DES can been reused several times without a significant loss of activity.

Ureas as safe carbonyl sources for the synthesis of carbamates with deep eutectic solvents (DESs) as efficient and recyclable solvent/catalyst systems

A simple, efficient and eco-friendly one-pot synthesis of primary, N-mono- and N-disubstituted carbamates is developed from ureas. The corresponding carbamates were produced at 120 °C, within 18 h, and in the presence of a deep eutectic solvent as a recyclable catalytic system. The catalyst can be reused for several runs without any reduction in its activity. To demonstrate the utility of this approach, a wide variety of alcohols and phenols were studied to find a vast range of carbamate derivatives in moderate to high yields.

Selective Synthesis of Secondary Arylcarbamates via Efficient and Cost Effective Copper-Catalyzed Mono Arylation of Primary Carbamates with Aryl Halides and Arylboronic Acids

Abstract: An efficient, selective and cost-effective procedure has been developed for mono N-arylation of primary alkyl and benzyl carbamates with aryl iodides and bromides by incorporating CuI as an inexpensive and commercially available catalyst. Despite previous reports on C–N coupling reactions, this process does not need expensive ligands and takes advantage of readily available and inexpensive ethylenediamine (EDA) as the ligand. Reaction times were relatively short and related N-arylated carbamates were obtained in excellent yields. Interestingly, replacing CuI with Cu(OAc)2 allowed us to use arylboronic acids as coupling partner for this reaction. All products are well characterized by 1H- and 13C-NMR, MS, melting point, IR and CHNS techniques.

Fe3O4@SiO2/Schiff base/Pd complex as an efficient heterogeneous and recyclable nanocatalyst for chemoselective: N -arylation of O -alkyl primary carbamates

An efficient, heterogeneous and cost effective method has been developed using an Fe3O4@SiO2/Schiff base/Pd complex as a magnetic and easily recyclable nanocatalyst for rapid and effective N-arylation of carbamates in good to excellent yield. The catalyst can be easily recovered and reused over six runs without significant decrease in the activity. Further highlights of this protocol are operational simplicity, versatility and relatively short reaction times.

CATALYST FOR THE SYNTHESIS OF ORGANIC CARBONATES, PROCESS FOR PREPARING THE SAME AND APPLICATION THEREOF

The present invention relates to a catalyst for the synthesis of organic carbonates, the preparation of the catalyst and the application of this catalyst in the synthesis of organic carbonates from reacting urea and hydroxyl group containing compounds. The catalyst provided in this invention is a calcinate of hydrous salt containing rare earth element at a moderate calcining temperature.

Silica supported perchloric acid (HClO4-SiO2): an efficient reagent for the preparation of primary carbamates under solvent-free conditions

The synthesis of primary carbamates from structurally diverse compounds containing a hydroxyl group has been performed in high yields and purity, and without any epimerization under solvent-free conditions using HClO4-SiO2 as a mild, convenient, and effective reagent. The procedure is operationally simple, efficient, and environmentally benign.

Oxygen Nucleophile Induced Ring Cleavage of 6-Methyl-1,3-oxazine-2,4(3H)-dione -- A Case of Nucleophilic Attack at C-4

Alcohols in the presence of triethylamine react with 6-methyl-1,3-oxazine-2,4(3H)-dione (2), preferentially at C-4 instead of C-2 to afford the corresponding alkyl acetoacetates (4), and alkyl carbamates (5).