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DIMP

DIMP, or Diisopropyl methylphosphonate, is a chemical compound with the formula C7H17O3P. It is an organophosphorus compound that has been studied for its properties and potential applications. DIMP is of interest in various fields, including chemistry, toxicology, and environmental science.

Chemical Structure and Properties

DIMP is an organophosphorus compound characterized by the presence of a phosphorus atom bonded to three oxygen atoms and a methyl group. The chemical structure can be represented as:

- Chemical Formula: C7H17O3P - Molecular Weight: 180.18 g/mol - Appearance: DIMP is typically a colorless liquid at room temperature. - Boiling Point: Approximately 180°C - Solubility: It is slightly soluble in water but more soluble in organic solvents such as ethanol and acetone.

Synthesis

DIMP can be synthesized through the reaction of isopropyl alcohol with methylphosphonic dichloride. The reaction proceeds as follows:

\[ \text{(CH}_3\text{)_2CHOH + CH}_3\text{P(O)Cl}_2 \rightarrow \text{(CH}_3\text{)_2CHOP(O)(CH}_3\text{) + 2 HCl} \]

This reaction requires careful handling due to the corrosive nature of the reactants and the production of hydrochloric acid as a byproduct.

Applications

DIMP has been studied for various applications, although it is not widely used in commercial products. Some potential applications include:

- Chemical Research: DIMP is used as a model compound in the study of organophosphorus chemistry. - Environmental Studies: It is used in research related to the degradation and environmental impact of organophosphorus compounds.

Toxicology

DIMP is considered to have low acute toxicity, but like many organophosphorus compounds, it can inhibit acetylcholinesterase, an important enzyme in the nervous system. This inhibition can lead to symptoms of organophosphate poisoning if exposure is significant.

- LD50 (Oral, Rat): Approximately 1,500 mg/kg

Environmental Impact

DIMP is not highly persistent in the environment, as it can undergo hydrolysis and biodegradation. However, its presence in the environment is monitored due to its potential to form more toxic degradation products.

Regulation and Safety

Due to its potential toxicity, handling of DIMP requires appropriate safety measures, including the use of personal protective equipment (PPE) and proper ventilation. It is regulated under various chemical safety guidelines.

Also see

- Organophosphorus compound - Acetylcholinesterase inhibitor - Chemical synthesis - Toxicology - Environmental chemistry