4-hydroxy Benzyl Alcohol is an organic compound commonly used in chemical and pharmaceutical research. It is a phenolic derivative of benzyl alcohol, containing both a hydroxyl group (-OH) and a benzyl alcohol functional group. These features make it a versatile compound for various synthetic and biological applications.
Chemical Structure and PropertiesChemical Name: 4-Hydroxybenzyl alcohol
Other Names: Para-hydroxybenzyl alcohol, Tyrosol
Molecular Formula: C₇H₈O₂
Molecular Weight: 124.14 g/mol
CAS Number: 623-05-2
Physical Properties:
PropertyDescriptionAppearanceWhite to off-white crystalline solid or powderMelting Point85–87°CBoiling Point285°CSolubilitySoluble in water, ethanol, and other polar solventsOdorMild phenolic odorThe compound's chemical structure features a benzene ring substituted with a hydroxyl group at the para position and a primary alcohol group on the benzyl side chain.
Synthesis4-Hydroxybenzyl alcohol can be synthesized through various methods, including:
Reduction of 4-Hydroxybenzaldehyde: The reduction of 4-hydroxybenzaldehyde using a mild reducing agent such as sodium borohydride (NaBH₄) or catalytic hydrogenation produces 4-hydroxybenzyl alcohol.
C6H4(OH)CHO+H2→C6H4(OH)CH2OHC₆H₄(OH)CHO + H₂ → C₆H₄(OH)CH₂OHC6H4(OH)CHO+H2→C6H4(OH)CH2OHBiotechnological Synthesis: It can also be produced via microbial or enzymatic pathways, particularly from tyrosine or related precursors, using engineered microorganisms.
Pharmaceutical Research:
Chemical Synthesis:
Biomimetic Studies:
Material Science:
Antimicrobial Applications:
4-Hydroxybenzyl alcohol is generally regarded as safe when handled under standard laboratory conditions, but caution should still be exercised.
Safety Precautions:
Storage:
First Aid:
4-Hydroxybenzyl alcohol is not considered highly toxic to the environment, but care should be taken during disposal. Waste material should be handled according to local regulations to prevent contamination of water or soil.
Conclusion4-Hydroxybenzyl alcohol is a versatile compound with applications spanning pharmaceuticals, material science, and organic synthesis. Its phenolic and alcohol functional groups make it reactive and adaptable for various industrial and research uses. Proper handling and storage ensure its stability and effectiveness, while its biological activities continue to make it a focus of scientific investigation.
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