Interesting facts
Interesting Facts about [benzhydryloxy(phenyl)methyl]benzene
[benzhydryloxy(phenyl)methyl]benzene, often encountered in chemical research, is a fascinating compound due to its diverse applications and unique structural features. Here are some notable aspects to consider:
- Structure & Properties: The compound features an intricate structure that includes a phenyl group and a benzhydryl moiety. This configuration lends itself to various chemical interactions and reactions.
- Applications: It is utilized in:
- Organic synthesis, particularly as a building block in the development of pharmaceuticals.
- Materials science for the development of advanced polymers.
- As a reagent in various chemical reactions due to its stable and reactive nature.
- Reactivity: The presence of both aromatic groups in its structure creates a platform for electrophilic and nucleophilic substitution reactions. This enhances its utility in synthetic organic chemistry.
- Bioactivity: Research has shown that compounds similar to [benzhydryloxy(phenyl)methyl]benzene exhibit interesting biological activity. This makes it a candidate for further studies in medicinal chemistry.
Quotes relating to the compound can often capture the scientific curiosity it sparks:
“In a world of complexity, discovering compounds like [benzhydryloxy(phenyl)methyl]benzene reveals the beauty of molecular architecture.”
Thus, [benzhydryloxy(phenyl)methyl]benzene stands out as a compound of considerable interest, bridging the gaps between synthesis, applications, and biological relevance.
Synonyms
Bis(diphenylmethyl) ether
Dibenzhydryl ether
Diphenylmethyl ether
UNII-13T730HO9L
BENZHYDRYL OXIDE
13T730HO9L
NSC-2438
AI3-15103
DIMENHYDRINATE IMPURITY K
DTXSID80205990
(1,1,3,3-Tetraphenyl)methyl ether
BENZOHYDROL DIPHENYLMETHYL ETHER [MI]
((BENZHYDRYLOXY)(PHENYL)METHYL)BENZENE
DIMENHYDRINATE IMPURITY K [EP IMPURITY]
[(Benzhydryloxy)(phenyl)methyl]benzene
DIMENHYDRINATE IMPURITY K (EP IMPURITY)
DTXCID10128481
BENZOHYDROL DIPHENYLMETHYL ETHER
pvqatpqsbynmge-uhfffaoysa-n
574-42-5
Benzhydrol ether
Benzhydryl ether
Bis(benzhydryl) ether
Benzohydrol ether
(Oxybis(methanetriyl))tetrabenzene
Dibenzohydryl ether
Ether, bis(diphenylmethyl)
(Bis(diphenylmethyl)ether)
Benzene, 1,1',1'',1'''-(oxydimethylidyne)tetrakis-
1,1,1',1'-Tetraphenyldimethyl ether
NSC 2438
1,1',1'',1'''-(Oxydimethylidyne)Tetrakis Benzene
[Oxybis(methanetriyl)]tetrabenzene (Bis(diphenylmethyl) Ether)
[benzhydryloxy(phenyl)methyl]benzene
SCHEMBL127629
NSC2438
1,1',1'-Tetraphenyldimethyl ether
MFCD00030056
AKOS024428867
AT11044
[(Benzhydryloxy)(phenyl)methyl]benzene #
DB-050045
Benzene,1',1'',1'''-(oxydimethylidyne)tetrakis-
Q27251543
Solubility of [benzhydryloxy(phenyl)methyl]benzene
The solubility of [benzhydryloxy(phenyl)methyl]benzene can be influenced by several factors, including its molecular structure and polarity. Generally, this compound exhibits the following solubility characteristics:
Consequently, when considering practical applications or reactions, it is important to choose appropriate solvents that can effectively dissolve [benzhydryloxy(phenyl)methyl]benzene. Remember the adage: "Like dissolves like." This means that nonpolar compounds typically dissolve well in nonpolar solvents, making this the ideal approach for working with this particular compound.
Understanding solubility is crucial for its use in various chemical processes, as it can greatly affect reaction rates and product yields. Thus, always consider the solubility of your compounds when planning experiments or synthesizing new materials.