42015-38-3

42015-38-3 - Names and Identifiers

Name	2-(2',3',4'-Trihydroxybutyl)quinoxaline
Synonyms	4-(2-quinoxalinyl)- 2-(2',3',4'-Trihydroxybutyl)quinoxaline 2-(2',3',4'-TRIHYDROXYBUTYL)QUINOXALINE
CAS	42015-38-3

42015-38-3 - Physico-chemical Properties

Molecular Formula	C12H14N2O3
Molar Mass	234.25
Melting Point	108-109°C
Solubility	DMSO (Slightly), Methanol (Slightly, Heated)
Appearance	Solid
Color	Off-White to Beige
Storage Condition	Hygroscopic, -20°C Freezer, Under Inert Atmosphere
In vitro study	The 2-(2',3',4'-Trihydroxybutyl)quinoxaline (G-1) is formed from barley lichenan, and the approximate molar ratios of the 1,4- to 1,3-linkage in lichenan is estimated to be 2.2. From scleroglucan, 2-(2',3',4'-Trihydroxybutyl)quinoxaline (G-1) is produced, reflecting a 1,3- and branched 1,6-linkage in the glucan.

42015-38-3 - Introduction

2-(2 ',3',4 '-Trihydroxybutyl) quinoxaline is an organic compound with the chemical name 2-(2',3 ',4'-Trihydroxybutyl) quinoxaline. Its molecular formula is C11H14N2O3.

The compound is a colorless or slightly yellow solid. It has good solubility and is soluble in water and many organic solvents.

2-(2 ',3',4 '-trihydroxybutyl) quinoxaline has many applications. It is often used as an intermediate of drugs and is an important raw material in the synthesis of some biologically active compounds. In addition, it can also be used as a catalyst for dyes and organic synthesis reactions.

There are various methods for preparing 2-(2 ',3',4 '-trihydroxybutyl) quinoxaline. The common method is to use terephthalic acid and adipaldehyde as raw materials, react under alkaline conditions, and finally synthesize the target product through cyclization and oxidation reaction.

Regarding the safety information of 2-(2 ',3',4 '-trihydroxybutyl) quinoxaline, there are currently no detailed toxicological data for this compound. However, as an organic compound, it is necessary to comply with general laboratory safety practices, avoid contact with skin or eyes, and avoid inhalation of gas or dust. In case of accidental contact, rinse immediately with water. During use and storage, care should be taken to avoid contact with oxidants and heat sources to avoid fire or explosion. Adequate ventilation equipment and personal protective equipment should be provided for use in a laboratory environment. For specific safety information, it is best to refer to the relevant safety data sheets and chemical specifications.

Last Update：2024-04-09 21:31:56