Interesting facts
Exploring 4-Propoxyphenol
4-Propoxyphenol, often recognized for its significance in organic chemistry and industrial applications, is an aromatic compound that plays multiple roles in various fields. Here are some intriguing aspects about this compound:
- Structure and Characteristics: The chemical structure of 4-propoxyphenol features a propoxy group connected to the 4-position of a phenolic ring. This structural configuration impacts its chemical reactivity and properties, making it an interesting study subject for chemists.
- Industrial Applications: 4-Propoxyphenol is utilized in the synthesis of various pharmaceuticals and agrochemicals. Its role as an intermediate in the production of more complex molecules showcases its importance in industrial chemistry.
- Antioxidant Properties: Research suggests that 4-propoxyphenol may exhibit antioxidant properties, which can be beneficial in protecting cells from oxidative stress. This characteristic opens avenues for exploring potential health benefits and applications in cosmetics.
- Research Significance: Due to its unique properties, 4-propoxyphenol has garnered attention in scientific research. Studies often focus on its reactivity, potential as a biocide, and its role in improving efficiency in various chemical processes.
- Sustainability Considerations: As the demand for sustainable and green chemistry grows, understanding the environmental impact of compounds like 4-propoxyphenol becomes crucial. Chemists are increasingly exploring safer and more efficient synthetic routes to minimize ecological footprints.
Furthermore, quotes from researchers highlight its versatility: "4-Propoxyphenol is an exemplar of how small changes in molecular structure can lead to significant differences in functionality and applicability." Overall, 4-propoxyphenol encapsulates the fascinating interplay between molecular structure and application, making it a compound of interest in both academic and industrial chemistry.
Synonyms
4-PROPOXYPHENOL
18979-50-5
Phenol, 4-propoxy-
p-Propoxyphenol
Phenol, p-propoxy-
p-Propoxy phenol
4-propoxy phenol
ZJ9EF57C3B
NSC 82358
NSC-82358
DTXSID6066442
Phenol, p-propoxy-(8CI)
DTXCID2035988
679-814-9
InChI=1/C9H12O2/c1-2-7-11-9-5-3-8(10)4-6-9/h3-6,10H,2,7H2,1H
4-n-Propoxyphenol
4-Propyloxyphenol
Hydroquinone monopropyl ether
MFCD00002335
4-Propoxy-phenol
NSC82358
PARA-PROPOXYPHENOL
UNII-ZJ9EF57C3B
SCHEMBL56796
SCHEMBL73303
CHEMBL225183
SCHEMBL1656676
SCHEMBL18419988
SCHEMBL21811086
BBL013152
SBB059151
STK081310
AKOS000120776
FP61842
GS-6662
SY036399
CS-0000196
NS00115923
P0955
ST50824354
EN300-17908
D70163
Q63409285
F0001-0684
Solubility of 4-propoxyphenol
4-propoxyphenol, with its chemical structure represented as C10H14O, exhibits intriguing solubility properties that reflect its molecular characteristics. This compound features a propoxy group, which significantly influences its interaction with solvents.
Key Points on Solubility
As with many organic compounds, the solubility of 4-propoxyphenol is influenced by temperature and the polarity of the solvent. Increased temperature generally leads to improved solubility, permitting greater interaction between the solute and solvent molecules. In summary, while 4-propoxyphenol shows a moderate solubility profile, its behavior in different solvent systems remains an essential element to consider in practical applications.