Interesting facts
Interesting Facts about 3-(Diethylamino)phenol
3-(Diethylamino)phenol, often abbreviated as DEAP, is a fascinating compound that has found its place in various fields of chemistry and industry. Below are some engaging insights into this intriguing compound:
- Versatile Intermediate: DEAP serves as a versatile intermediate in the synthesis of various organic compounds. Its ability to undergo electrophilic substitution makes it an excellent candidate in creating dyes, pigments, and pharmaceuticals.
- Photographic Applications: One of the unique features of 3-(diethylamino)phenol is its use in the photographic industry. It plays a critical role in the development of photographic materials due to its ability to absorb light and participate in chemical reactions under illumination.
- Role in Research: In the realm of academic and industrial research, DEAP is frequently utilized to study electron transfer processes. It acts as a model compound for understanding the behavior of amine-containing compounds in various organic reactions.
- Health and Safety: As with many organic compounds, handling DEAP requires caution. It is essential for researchers and chemists to use appropriate safety protocols to mitigate any potential risks associated with exposure.
- Chemical Behavior: This compound exhibits unique solubility properties and pH-dependence, which affect its reactivity and interaction with other chemical species. Its behavior in different environments is a topic of interest for many chemists.
In conclusion, 3-(diethylamino)phenol is not just another organic compound; it offers a wealth of opportunities for exploration in synthetic chemistry, material science, and even photography. Its diverse functional applications make it an exciting subject for both students and seasoned scientists alike.
Synonyms
3-DIETHYLAMINOPHENOL
3-(Diethylamino)phenol
91-68-9
N,N-Diethyl-m-aminophenol
Phenol, 3-(diethylamino)-
N,N-Diethyl-3-aminophenol
m-(Diethylamino)phenol
3-Hydroxy-N,N-diethylaniline
Phenol, m-(diethylamino)-
N,N-Diethyl-3-hydroxyaniline
CCRIS 4615
UNII-BQY98Q7YU5
EINECS 202-090-9
BQY98Q7YU5
3-(N,N-diethylamino)phenol
MFCD00002265
NSC 93934
m-Diethylaminophenol
BRN 0908212
DTXSID9025037
RODOL DEMAP
AI3-14895
NSC-93934
m-hydroxy-n,n-diethylaniline
DIETHYLAMINOPHENOL, 3-
DTXCID205037
EC 202-090-9
4-13-00-00969 (Beilstein Handbook Reference)
N,N-DIETHYL-3-HYDROXYBENZENAMINE
mDiethylaminophenol
NSC93934
O0Y
metaDiethylaminophenol
m(Diethylamino)phenol
3(Diethylamino)phenol
3-diethylamino phenol
3-diethylamino-phenol
meta-diethylaminophenol
N,NDiethylmaminophenol
N,NDiethyl3aminophenol
Phenol, m(diethylamino)
3-(diethylamino)-phenol
3HydroxyN,Ndiethylaniline
N,NDiethyl3hydroxyaniline
Phenol, 3(diethylamino)
3Hydroxydiethylaminobenzene
3-Diethylaminophenol, 97%
3-(N,N-diethlyamino)phenol
BIDD:GT0214
SCHEMBL124477
CHEMBL1420719
3-HYDROXYDIETHYLAMINOBENZENE
AAA09168
Tox21_200238
STL264114
AKOS000118745
CCG-357319
CS-W004052
SB75725
CAS-91-68-9
s12396
NCGC00091617-01
NCGC00091617-02
NCGC00257792-01
AS-14538
N,N-DIETHYL-M-AMINOPHENOL [INCI]
SY036932
DB-021710
D0470
NS00001856
EN300-19435
Q27274827
F0001-2221
Z104473836
Solubility of 3-(diethylamino)phenol
3-(diethylamino)phenol, a compound with notable applications in various fields, exhibits particular solubility characteristics that are of great interest.
Its solubility is influenced by several factors:
As a rule of thumb, like dissolves like—the compound favors environments that can interact with its polar amino groups.
In conclusion, the solubility of 3-(diethylamino)phenol is a crucial factor to consider during its practical applications, particularly in formulations where solvent compatibility must be ensured.