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Chemical structure of Benzene and substituted derivatives
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1,3,5-Trimethoxybenzene | 621-23-8

Additional information

CAS ID

621-23-8
IUPAC Name

1,3,5-trimethoxybenzene
Molecular Formula

C9H12O3
Molecular Weight

SMILES

COC1=CC(OC)=CC(OC)=C1

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General Information

Additional information

CAS ID

621-23-8
IUPAC Name

1,3,5-trimethoxybenzene
Molecular Formula

C9H12O3
Molecular Weight

SMILES

COC1=CC(OC)=CC(OC)=C1

Description

69301

Synonym: phloroglucinol trimethyl ether, sym-trimethoxybenzene, benzene, 1,3,5-trimethoxy, 1,3,5-trimethyoxybenzene, unii-00vji3vg3d, 1,3,5-trimethoxy benzene, o,o,o-1,3,5-trimethylresorcinol, 00vji3vg3d, dsstox_cid_25963, dsstox_rid_81259

Color White-Yellow
Boiling Point 190°C
Melting Point 52°C
Formula Weight 168.19
Physical Form Crystal-Powder at 20°C
Chemical Name or Material 1,3,5-Trimethoxybenzene

Trimethoxybenzene is an organic compound belonging to the benzene derivatives family with methoxy substituents. Its chemical formula is C9H12, O3 repre, and it contains a benzene ring with three methoxy groups (-OCH₃) connected. This compound’s diverse chemical characteristics make it popular in chemical research and production.

Trimethoxybenzene Structural and Chemical Properties:

Trimethoxybenzene is formed by substituting three methoxy groups onto a benzene ring. Trimethoxybenzene can occur in various isomers depending on the substitution pattern, including 1,2,3-trimethoxybenzene, 1,2,4-trimethoxybenzene, and 1,3,5-trimethoxybenzene.

Molecular Weight: The trimethoxybenzene molecular weight is 168.19 g/mol.

Applications and Uses

Trimethoxybenzene is often used in:

Synthetic Chemistry: As a step in creating increasingly complex organic molecules.
Material Science: Because of its aromatic characteristics, it is occasionally utilised to formulate specialised polymers and resins.
Research: Its derivatives are being investigated for potential application in medicines and agrochemistry.

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FAQs

How is the trimethoxybenzene molecular weight computed, and what is its significance?
Trimethoxybenzene’s molecular weight is calculated by its chemical formula. Accurate molecular weight enables exact stoichiometric calculations in reactions, which is crucial for getting desired results in research and industry.
What is the role of trimethoxybenzene in medicinal formulations?
Trimethoxybenzene is used as an intermediary or precursor in synthesising complicated medicinal compounds. Its molecular weight promotes compatibility and predictability in compositions requiring certain structural and chemical features.
How does trimethoxybenzene’s molecular weight affect its physical properties?
The molecular weight of trimethoxybenzene directly influences its melting, boiling, and solubility. These qualities dictate how it behaves in different chemical conditions and whether it is suitable for certain industrial uses.
Trimethoxybenzene is used as a monomer or co-monomer in polymer synthesis. Its molecular weight and structure help to produce polymers with specified thermal, mechanical, and functional characteristics.
Trimethoxybenzene is used as a monomer or co-monomer in polymer synthesis. Its molecular weight and structure help to produce polymers with specified thermal, mechanical, and functional characteristics.
What safety measures should be followed when handling trimethoxybenzene?
While trimethoxybenzene is typically stable, it must be handled with gloves and under sufficient ventilation. Knowing its molecular weight allows you to determine the proper proportions to minimise exposure and avoid unwanted chemical reactions.

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