Interesting facts
Interesting Facts About 1,3-bis(methoxymethyl)urea
1,3-bis(methoxymethyl)urea is a fascinating compound that delves into the realm of urea derivatives, showcasing a blend of chemical reactivity and potential applications. Here are some highlights that make this compound particularly noteworthy:
- Chemical Structure: The presence of two methoxymethyl groups on the urea backbone significantly influences the compound's properties and reactivity, potentially enhancing its solubility and interaction with biological molecules.
- Applications: This compound is often explored for its potential in various sectors, including:
- Pharmaceuticals: It may serve as an intermediate in the synthesis of bioactive molecules or drugs.
- Agriculture: Research indicates that urea derivatives can be used as slow-release fertilizers.
- Reactivity: The unique arrangement of the methoxymethyl groups makes this compound a target for various chemical transformations. Its reactivity can be utilized in synthetic chemistry to form new bonds and structures.
- Research Potential: Scientists are intrigued by the ability to modify this compound for specific applications, thus opening new avenues in drug design or material science.
- Environmental Impact: Urea-derived compounds like 1,3-bis(methoxymethyl)urea may have a lower environmental footprint compared to traditional synthetic agents, making them valuable in the search for sustainable chemical solutions.
Quotes from renowned chemists resonate well here: "In chemistry, the devil is not in the data, but in the interpretation." This emphasizes the importance of understanding the implications and potential of compounds like 1,3-bis(methoxymethyl)urea beyond their mere composition.
Overall, 1,3-bis(methoxymethyl)urea serves as a key example of how a simple chemical modification can lead to a compound with diverse roles and significant scientific interest.
Synonyms
1,3-BIS(METHOXYMETHYL)UREA
141-07-1
1,3-Dimethoxymethylurea
Dimethylolurea dimethyl ether
Bis(methoxymethyl)urea
Kaurit W
N,N'-Bis(methoxymethyl)urea
Dimethoxydimethylolurea
N,N'-Dimethoxymethylurea
Urea, N,N'-bis(methoxymethyl)-
N,N'-Dimethylolurea dimethyl ether
UNII-K754ST3V4N
HSDB 5632
Urea, 1,3-bis(methoxymethyl)-
EINECS 205-454-5
NSC 75061
NSC-75061
K754ST3V4N
DTXSID5040126
N,N'-DI(METHOXYMETHYL)UREA
1,3-DIMETHOXYMETHYLUREA [HSDB]
1,3-bis-methoxymethyl-urea
Bis-methoxymethyl urea
1,3Dimethoxymethylurea
N,N'Dimethoxymethylurea
N,N'Bis(methoxymethyl)urea
NCIOpen2_000693
Urea,3-bis(methoxymethyl)-
Urea,N'-bis(methoxymethyl)-
Urea, 1,3bis(methoxymethyl)
Urea, N,N'bis(methoxymethyl)
SCHEMBL1860919
DTXCID3020126
1,3-Bis(methoxymethyl)harnstoff
N,N'Dimethylolurea dimethyl ether
NSC75061
MFCD01940532
AKOS006351288
FB176895
NS00021642
Q27282040
Solubility of 1,3-bis(methoxymethyl)urea
1,3-bis(methoxymethyl)urea is a fascinating compound with particular solubility characteristics that merit attention. Its solubility can be affected by several factors, including:
This compound is known to be moderately soluble in water, making it suitable for applications requiring aqueous solutions. It tends to dissolve well in polar organic solvents such as methanol and ethanol, where it can achieve higher concentrations.
In summary, the solubility of 1,3-bis(methoxymethyl)urea is influenced by its chemical structure and environmental conditions, showcasing the complex interplay between molecular characteristics and solvent interactions.