Interesting facts
Interesting Facts about Benzylurea
Benzylurea is a fascinating organic compound known for its unique properties and diverse applications in the field of chemistry. Here are some compelling facts that make this compound worthy of study:
- Chemical Classification: Benzylurea belongs to the class of urea derivatives, which are important in the synthesis of various pharmaceuticals and agrochemicals.
- Biological Importance: This compound has shown potential in biological studies, particularly in understanding the mechanisms of certain enzymes and biological pathways. Its interactions could pave the way for novel therapeutic agents.
- Synthetic Versatility: Benzylurea can be synthesized through various methods, allowing chemists to explore different reaction conditions. This versatility contributes to its appeal in research and development.
- Industrial Application: Due to its structural properties, benzylurea is often considered in the formulation of pesticides and herbicides, making it relevant in agriculture. Its effectiveness in these applications demonstrates its significance in maintaining food supply chains.
- Research Interest: The compound has garnered attention in materials science and nanotechnology, where it is investigated for its potential role in developing new materials with specific functionalities.
In summary, benzylurea is more than just a simple organic molecule; it bridges the gap between basic research and practical applications. As scientists continue to explore its properties, we can expect exciting developments that will enhance our understanding of chemistry and its applications in the real world.
Synonyms
Benzylurea
1-Benzylurea
N-Benzylurea
Benzylcarbamide
Urea, (phenylmethyl)-
Phenylmethylurea
UREA, BENZYL-
N-(Phenylmethyl)urea
EINECS 208-689-1
NSC 109103
BRN 2208083
UNII-0K14I09J76
AI3-61350
BENZYLUREA [MI]
0K14I09J76
NSC-109103
RJNJWHFSKNJCTB-UHFFFAOYSA-
DTXSID10202078
EC 208-689-1
4-12-00-02253 (Beilstein Handbook Reference)
Urea, (phenylmethyl)-(9CI)
DTXCID10124569
208-689-1
inchi=1/c8h10n2o/c9-8(11)10-6-7-4-2-1-3-5-7/h1-5h,6h2,(h3,9,10,11)
rjnjwhfsknjctb-uhfffaoysa-n
538-32-9
MFCD00007951
benzyl-urea
CC-PMLSC-DMA-P105
Urea, (phenylmethyl)- (9CI)
Urea, N-(phenylmethyl)-
benzyl urea
3-benzylurea
(phenylmethyl)urea
NSC109103
1-(phenylmethyl)urea
(benzylamino)carboxamide
WLN: ZVMIR
SCHEMBL81511
cid_10853
MLS000889052
SCHEMBL9387528
CHEMBL1878784
BDBM35447
HMS2211M13
HMS3358C20
BBL013146
STK398278
AKOS000113529
AC-6165
CS-W010969
FB61333
HY-W010253
SB75782
SDCCGMLS-0091865.P001
NCGC00142238-01
SMR000209020
SY049437
DB-052406
B0449
NS00006413
EN300-19992
7M-744
Q27236884
F0001-1396
Z104476310
Solubility of Benzylurea
Benzylurea, with the chemical formula C8H10N2O, exhibits intriguing solubility characteristics. When assessing its solubility, it's crucial to consider the following:
It’s essential to note that while benzylurea shows reasonable solubility in aqueous solutions, it may have limited solubility in nonpolar solvents, which can significantly impact its applications in various fields. As a general guideline:
In summary, understanding the solubility of benzylurea not only aids in its practical application but also illustrates the complex interplay between molecular structure and solvent properties.