Interesting facts
Interesting Facts about 4-Phenoxyphenol
4-Phenoxyphenol, often known for its intriguing structure, is a versatile organic compound primarily utilized in the chemical industry. Here are some captivating aspects of this compound:
- Chemical Structure: 4-Phenoxyphenol consists of a phenol group bound to a phenoxy group. This unique arrangement imparts distinct chemical properties, making it a useful building block in various synthetic applications.
- Applications: It has a wide range of applications, notably in the synthesis of:
- Antiseptics and preservatives
- Pharmaceutical compounds
- Dyes and pigments
- Antimicrobial Properties: 4-Phenoxyphenol possesses effective antimicrobial properties, contributing to its use as a preservative in cosmetic and personal care products. It helps prolong the shelf life of these items by inhibiting the growth of harmful microorganisms.
- Research Potential: Ongoing research into 4-Phenoxyphenol may unlock further potential uses, particularly in organic electronics and nanotechnology, where its properties could be leveraged for advanced materials.
- Synthesis: The synthesis of this compound can be performed via several methods, often involving the etherification of phenol derivatives. One common method is through nucleophilic substitution reactions, providing insight into interesting reaction mechanisms.
- Safety Considerations: As with many chemical compounds, safety is crucial. Appropriate precautions should be taken while handling 4-Phenoxyphenol to mitigate any toxic effects it may pose.
In conclusion, 4-Phenoxyphenol stands out due to its unique properties and broad range of applications in the chemical industry. Its ability to act as both a synthesis intermediate and an antimicrobial agent makes it a compound of interest for further exploration in various scientific fields.
Synonyms
4-PHENOXYPHENOL
831-82-3
p-Phenoxyphenol
4-Hydroxydiphenyl ether
Phenol, 4-phenoxy-
p-Hydroxydiphenyl ether
Phenol, p-phenoxy-
BIF-44
Hydroquinone monophenyl ether
EINECS 212-611-1
NSC 25027
D83R742GJR
DTXSID2022127
CHEBI:39264
NSC-25027
DTXCID802127
Phenol, p-phenoxy-(8CI)
212-611-1
MFCD00002331
4-phenoxyphenol methanol clathrate
4-phenoxy phenol
4-(phenyloxy)phenol
UNII-D83R742GJR
4-phenoxy-phenol
4-Hydroxydiphenyl Ether; Hydroquinone Monophenyl Ether; NSC 25027; p-Hydroxydiphenyl Ether; p-Phenoxyphenol; Phenol, p-phenoxy- (6CI,7CI,8CI)
HX8
4-(Phenoxy)phenol
4-(phenoxy)-phenol
4-Phenoxyphenol, 99%
2_vac_100K
2_vac_293K
SCHEMBL74847
CHEMBL224318
4-phenoxyphenol acetone clathrate
BDBM398051
GLXC-10547
US10322118, Entry 9
CS-B0818
NSC25027
STR06800
Tox21_302190
CGA-26021
AKOS000119371
FP54189
PS-8471
NCGC00257532-01
CAS-831-82-3
SY001783
DB-028997
NS00014371
P0950
EN300-20480
F21246
AC-907/25014304
Hydroquinone monophenyl ether;4-Hydroxydiphenyl ether
Q17310077
Z104478356
Solubility of 4-phenoxyphenol
4-phenoxyphenol, with the chemical formula C12H10O, exhibits a moderate degree of solubility in various solvents. Understanding the solubility of this compound can provide insights into its potential applications and behavior in different environments. Here are some key points regarding its solubility:
In conclusion, while 4-phenoxyphenol might be challenging to dissolve in aqueous solutions, its solvent versatility makes it valuable for many industrial and laboratory applications. Understanding these solubility properties is crucial for effectively utilizing this compound.