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Isopropyl hydroxylamine IPHA is a chemical compound that can be used as a solvent for organic compounds.
Isopropyl hydroxylamine IPHA has been shown to have genotoxic properties, which may be due to the production of hydrogen peroxide.
Isopropyl hydroxylamine IPHA is also an antioxidant compound and has been shown to have anti-inflammatory effects.
CAS: 5080-22-8
MF: C3H9NO
MW: 75.11
EINECS: 225-791-1
Isopropyl hydroxylamine IPHA has been found to inhibit the growth of fibroblast cells in vitro by binding to basic fibroblast growth factor (bFGF).
Isopropyl hydroxylamine IPHA is stable at neutral pH and hydrochloric acid, but unstable in the presence of inorganic acids.
The pure Isopropyl hydroxylamine IPHA is a white crystalline flake; however, it is sold as a 15% solution in water.
The aqueous solution is colourless with a slight amine odour.
Isopropyl hydroxylamine IPHA is an organic compound with the chemical formula C3H9NO.
Isopropyl hydroxylamine IPHA is a colorless and clear liquid that is highly reactive and has a wide range of applications in various fields.
Isopropyl hydroxylamine IPHA has been studied extensively for its physical, chemical, and biological properties, as well as its potential uses in scientific experiments and industrial applications.
This paper aims to provide a comprehensive review of Isopropyl hydroxylamine IPHA, covering its definition, background, properties, synthesis, characterization, analytical methods, biological properties, toxicity and safety in scientific experiments, applications in scientific experiments, current state of research, potential implications in various fields of research and industry, and limitations and future directions.
Isopropyl hydroxylamine IPHA is a type of hydroxylamine, which is an organic compound containing the functional group -NH(OH).
The isopropyl group (-CH(CH3)2) attached to the nitrogen gives Isopropyl hydroxylamine IPHA its specific name.
Isopropyl hydroxylamine IPHA are highly reactive and have a variety of uses in organic synthesis and biological research.
Isopropyl hydroxylamine IPHA was first synthesized in the 1950s and has since been studied extensively for its potential applications.
Isopropyl hydroxylamine IPHA Chemical Properties
Melting point: 159-160 °C (dec.)
Boiling point: 104.9±23.0 °C(Predicted)
Density: 0.886±0.06 g/cm3(Predicted)
Vapor pressure: 68Pa at 25℃
pka: 14.14±0.50(Predicted)
Water Solubility: 199g/L at 25℃
LogP: -0.574 at 23℃
EPA Substance Registry System: Isopropyl hydroxylamine IPHA (5080-22-8)
The physical properties of Isopropyl hydroxylamine IPHA include boiling point of 96-97°C, melting point of -11°C, and a density of 0.892 g/mL at 25°C.
Isopropyl hydroxylamine IPHA is soluble in water and organic solvents such as acetone and ether.
Isopropyl hydroxylamine IPHA is highly reactive and can react with various compounds, such as ketones, aldehydes, and nitro compounds.
The chemical properties of Isopropyl hydroxylamine IPHA are due to the presence of the hydroxylamine functional group, which can undergo various reactions such as oxidation, reduction, and addition reactions.
Biological Properties
Isopropyl hydroxylamine IPHA has been studied for its potential biological properties such as antioxidant, antitumor, and antiviral activities.
Studies have shown that Isopropyl hydroxylamine IPHA can scavenge free radicals and inhibit tumor cell growth and viral replication.
Further research is needed to fully understand its biological activities and potential applications.
Uses
Isopropyl hydroxylamine IPHA is used in preparation method of Methylstyrene Butadiene rubber.
Isopropyl hydroxylamine IPHA is used in the following products: pH regulators and water treatment products, water treatment chemicals, adhesives and sealants and polymers.
Isopropyl hydroxylamine IPHA is used for the manufacture of: rubber products.
Release to the environment of Isopropyl hydroxylamine IPHA can occur from industrial use: as processing aid and as processing aid.
Isopropyl hydroxylamine IPHA has a wide range of applications in scientific experiments such as organic synthesis, electrochemistry, and analytical chemistry.
Isopropyl hydroxylamine IPHA can be used as a reducing agent, a stabilizer, and a radical scavenger.
Isopropyl hydroxylamine IPHA has also been used in the preparation of various compounds such as N-alkyl and N-aryl hydroxylamines.
Synthesis and Characterization
Isopropyl hydroxylamine IPHA can be synthesized by various methods such as the reaction of isopropylamine with chloramine or nitrosyl chloride.
Alternatively, Isopropyl hydroxylamine IPHA can be prepared from isopropylhydroxylamine oxalate by acid or base hydrolysis.
Isopropyl hydroxylamine IPHA can be characterized by various techniques such as nuclear magnetic resonance (NMR), mass spectrometry, and infrared spectroscopy.
Toxicity and Safety in Scientific Experiments
Isopropyl hydroxylamine IPHA can be toxic and must be handled with care.
Isopropyl hydroxylamine IPHA can cause irritation to the eyes, skin, and respiratory tract.
Studies have shown that Isopropyl hydroxylamine IPHA has moderate acute toxicity and low mutagenic potential.
Proper safety precautions should be followed when handling Isopropyl hydroxylamine IPHA in scientific experiments.
Synonyms
N-isopropylhydroxylamine
5080-22-8
2-Propanamine, N-hydroxy-
n-hydroxypropan-2-amine
N-propan-2-ylhydroxylamine
ISOPROPYLHYDROXYLAMINE
DTXSID6063694
3NT440V34T
N-(propan-2-yl)hydroxylamine
2-Hydroxylaminopropane
N-Hydroxyisopropylamine
UNII-3NT440V34T
EINECS 225-791-1
IPHA
isopropyl hydroxylamine
N-Isopropyl-hydroxylamine
N-Isopropylhydroxylamine #
EC 225-791-1
ISOPROPYL HYDROXYAMINE
CHEMBL140282
N-HYDROXY-2-PROPANAMINE
N-HYDROXY-2-PROPANEAMINE
HYDROXYLAMINE, N-ISOPROPYL-
ZINC1677558
MFCD02874394
AKOS006230300
AT14836
FT-0719142
EN300-112062
Q27257766
N-ISOPROPYLHYDROXYLAMINE (15% SOLUTION IN WATER)
Z1198161074
n-isopropylhydroxylamine;n-hydroxypropan-2-amine;2-propanamine, n-hydroxy-;2-hydroxylaminopropane;n-isopropylhydroxylamine n-hydroxypropan-2-amine 2-propanamine, n-hydroxy- 2-hydroxylaminopropane
