3979-51-9

Basic information

• Product Name: 2-PROPANOL-OD
• Synonyms: ISOPROPYL ALCOH(OL-D);ISOPROPYL ALCOHOL-D1;ISO-PROPYL ALCOHOL-OD;ISOPROPAN(OL-D);ISOPROPANOL-D1;ISOPROPANOL-OD;2-PROPANOL-OD;2-PROPANOL-D1
• CAS NO: 3979-51-9
• Molecular Formula: C₃H₈O
• Molecular Weight: 61.1
• EINECS: 223-616-3
• Mol File: 3979-51-9.mol
• Article Data: 12

Chemical Properties

• Melting Point: -90 °C(lit.)
• Boiling Point: 82 °C(lit.)
• Flash Point: 75 °F
• Appearance: Clear colorless/Liquid
• Density: 0.798 g/mL at 25 °C(lit.)
• Vapor Pressure: 81.3mmHg at 25°C
• Refractive Index: n20/D 1.3752(lit.)
• Storage Temp.: Store below +30°C.
• Explosive Limit: 2-12.7%(V)
• CAS DataBase Reference: 2-PROPANOL-OD(CAS DataBase Reference)
• NIST Chemistry Reference: 2-PROPANOL-OD(3979-51-9)
• EPA Substance Registry System: 2-PROPANOL-OD(3979-51-9)

Safety Data

• Hazard Codes: F,Xi
• Statements: 11-36-67
• Safety Statements: 7-16-24/25-26
• RIDADR: UN 1219 3/PG 2
• WGK Germany: 1
• Hazardous Substances Data: 3979-51-9(Hazardous Substances Data)

Usage

Description

2-Propanol-OD, also known as deuterated isopropanol, is a clear colorless liquid that is a derivative of isopropanol with one or more hydrogen atoms replaced by deuterium atoms. This substitution makes it a valuable compound for various applications in scientific research and industry due to its unique properties.

Uses

Used in Chemical Research:
2-Propanol-OD is used as a solvent for studying the solvation time (dynamics) of singlet carbene compounds. Its deuterated nature allows for better observation and analysis of the solvation process in these reactions.
Used in Pharmaceutical Research:
2-Propanol-OD is used as a solvent in the investigation of the reaction mechanism of benzophenone and/or acetone ketyl radicals with tirapazamine. The deuterated isopropanol aids in understanding the reaction kinetics and the role of the radicals in the process.
Used in Lignite Liquefaction Studies:
2-Propanol-OD is employed in the study of lignite liquefaction, a process that converts solid coal into liquid hydrocarbons. The deuterated alcohol plays a crucial role in understanding the chemical reactions and mechanisms involved in this process.

InChI:InChI=1/C3H8O/c1-3(2)4/h3-4H,1-2H3/i4D

Upstream product

• 75-26-3 isopropyl bromide 
• 683-60-3 sodium isopropylate 
• 75-28-5 Isobutane 
• 599-00-8 trifluoroacetic acid-d₁ 
• 201230-82-2 carbon monoxide 
• 4161-05-1 4-isopropyl-4-methyl-2,6-dioxopiperidine-3,5-dicarbonitrile 
• 143885-03-4 isopropyloxy(diphenyl)-λ⁶-sulfanenitrile 
• 555-31-7 aluminum isopropoxide 
• 811-98-3 d⁽⁴⁾-methanol 
• 108-21-4 Isopropyl acetate 
• 67-63-0 isopropyl alcohol 
• 666-52-4 [⁽²⁾H₆]acetone 

Downstream Products

• 22739-76-0 d8-isopropanol 
• 67-64-1 acetone 
• 67-63-0 isopropyl alcohol 
• 98446-83-4 1-methoxy-4-[(propan-2-yloxy)methyl]benzene 
• 1094787-91-3 u202fN²,N²-diethyl-6-isopropoxypyridine-2,5-diamine 
• 34392-84-2 2-diethylamino-5-amino pyridine 
• 154274-14-3 (+/-)-1-phenylethanol-O-d 

Relevant articles and documents

Regularities of Pd/C-catalyzed reduction of trichlorobiphenyls with 2-propanol in basic medium

Reduction of a series of trichlorobiphenyls with 2-propanol in basic medium catalyzed by Pd/C has been studied. Regioselectivity of the reduction has been determined. In the studied cases, the chlorine atom in para or meta positions of the more substituted ring has been more reactive. Using isotope labeling, it has been demonstrated that the reaction occurs via the stage of 2-propanol dehydration on palladium catalyst, followed by catalytic hydrogenation of the polychlorinated biphenyls.

Homogeneous catalytic oxidation of light alkanes: C-C bond cleavage under mild conditions

The combined oxidation of CO and C2-C4 alkanes (associated petroleum gas and natural gas components) under the action of oxygen in trifluoroacetic acid solutions in the presence of rhodium and copper chlorides was accompanied by the oxidative degradation of C-C bonds in a hydrocarbon chain with the formation of carbonyl compounds, alcohols, and esters. For butane and isobutane, the reaction path with C-C bond cleavage was predominant. The buildup curves of isobutane oxidation products (both with the retention and with the degradation of the chain) were S-shaped and characterized by the same induction period; they did not pass through a maximum. A reaction scheme was proposed to reflect the main special features of the mechanism of transformations occurring in the O2/Rh/Cu/Cl- oxidation system.

Catalysis of transesterification reactions by lanthanides - Unprecedented acceleration of methanolysis of aryl and alkyl esters promoted by La(OTf)3 at neutral sspH and ambient temperatures

La3+ catalysis of the methanolysis of the esters p-nitrophenyl, 2,4-dinitrophenyl, and phenyl acetate (1-3), phenyl benzoate (4), and ethyl, i-propyl, cyclohexyl, and tert-butyl acetate (5, 6a, 6b, 7) was studied at 25°C as a function of sspH and [La(OTf)3]. The active form of the catalyst is attributed to a dimethoxy-bridged dimer of stoichiometry (La3+)2(-OCH3)2, having maximum activity atsspH 8 to 9. For preparative reactions, the active catalyst can be made in situ simply by adding 0.01 equiv of La(OTf)3, and 0.01 equiv of NaOCH3 to a methanol solution containing the ester (1 M). Strong catalysis of methanolysis of both aryl and alkyl esters was observed, although tert-butyl acetate was inert. At sspH 8.5, where the catalyst is maximally active, the transesterification reactions are accelerated by 40 000-fold to 18 000 000-fold in the presence of as little as 5 mM catalyst relative to the background reaction depending on the ester structure. A mechanism for catalysis of transesterification is presented wherein the reactive species is generated by breaking a single La-OCH3 bond of the dimethoxy-bridged dimer to reveal a nucleophilic metal-bound methoxide - Lewis acid La3+ electrophilic pair.