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PRODUCT PARAMETERS
Description
mono(2-propylheptyl) ether Properties | |
Other Names | Oxirane, 2-methyl-, polymer with oxirane, |
CAS No. | N/A |
Compound Formula | N/A |
Molecular Weight | N/A |
Appearance | Colorless liquid |
Melting Point | N/A |
Boiling Point | N/A |
Density | N/A |
Solubility in H2O | N/A |
Exact Mass | N/A |
mono(2-propylheptyl) ether Health& Safety Information | |
Signal Word | N/A |
Hazard Statements | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety Statements | N/A |
Transport Information | N/A |
(mono(2-propylheptyl) ether)
Overview of Branched C8 Alcohol Alkoxylated
Mono (2-propelheptyl) ether is an organic compound belonging to the ether class. Its structural feature comprises a 2-propylheptanyl group and a hydroxyethyl group connected by an oxygen atom. This compound has branched alkyl and ether bonds in its chemical structure, which makes it unique in certain physical and chemical properties. Due to the presence of ether bonds, Mono (2-propalheptyl) ether typically has good solubility and stability. In addition, its branched chain structure may affect its behavior in solution or its interactions with other molecules. Mono (2-propalheptyl) ether is an organic ether compound with specific structures and properties, and its structural characteristics make it have potential application value in certain fields. However, specific applications require further research and exploration based on their specific physical and chemical properties and practical needs.
Features of Branched C8 Alcohol Alkoxylated
Specific structure: A branched ether-like structure is formed by connecting 2-propyl heptanol and hydroxyethyl through ether bonds.
Good solubility: Because of the presence of ether bonds, this compound typically exhibits good solubility and is soluble in various organic solvents.
Stability: Mono (2-propalheptyl) ether exhibits high chemical stability under conventional conditions.
Physical properties: may have specific physical properties such as density, boiling point, and refractive index, closely related to their molecular structure.
Branch chain effect: Branch chain structure may affect its interaction with other molecules and performance in certain applications.
Environmental friendliness: It is necessary to determine whether it is environmentally friendly based on specific research and data.
Application of Branched C8 Alcohol Alkoxylated
Organic synthesis: can be used as an intermediate or raw material for synthesizing other complex organic compounds.
Solvent application: Due to its good solubility, it may be applied in certain specific solvent systems or processes.
Surfactant: It may have surface activity and is used to prepare lotion, dispersion, or as a wetting agent.
Application of mono(2-propylheptyl) ether
Energy field: It may be used as an additive or modifier in certain fuel or energy-related applications.
Fine chemical industry: In the fine chemical industry, it may be used to prepare certain special chemicals or additives.
Materials Science: May be used as a modifier or additive to improve the performance or processability of certain materials.
Company Profile
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FAQ
Q1
Is Mono (2-copylheptyl) ether soluble in water?
Answer: The solubility of Mono (2-copylheptyl) ether depends on its molecular structure and polarity. Although ethers usually have a certain degree of water solubility, the specific solubility in water still needs to be determined through experiments. Its branched-chain structure and ether bonds may affect its solubility in water.
Q2
How to synthesize Mono (2-copylheptyl) ether?
Answer: The method for synthesizing Mono (2-propylhexyl) ether may involve the etherification reaction of 2-propylheptanol with ethylene oxide. Under appropriate catalysts and conditions, 2-propylheptanol undergoes an addition reaction with ethylene oxide to form Mono (2-propalheptyl) ether. Experiments and research must still determine the specific synthesis route and conditions.
Q3
What are the applications of Mono (2-copylheptyl) ether in organic synthesis?
Answer: Mono (2-copylheptyl) ether may serve as an intermediate or raw material in organic synthesis to construct more complex organic molecules. Its specific structure and properties enable it to play a role in specific synthesis reactions, such as etherification, esterification, etc. However, specific applications still need to be validated through experiments and research.
Q4
What are the physical properties of Mono (2-copylheptyl) ether?
Answer: The physical properties of Mono (2-copylheptyl) ether may include density, boiling point, refractive index, etc. These physical properties can be determined experimentally and correlated with their molecular structure.
Q5
What are the unique features of Mono (2-copylheptyl) ether compared to other compounds?
Answer: The uniqueness of Mono (2-copylheptyl) ether lies in its branched-chain structure and ether bonds. These structural characteristics may make it different from other compounds in certain physical and chemical properties. For example, its branched chain structure may affect its interactions with other molecules and performance in certain applications. In addition, ether bonds may endow it with specific solubility and stability. However, the specific uniqueness still needs further exploration and verification through experiments and research.