Butylurea | Solubility of Things

Identification

Molecular formula

C₅H₁₂N₂O

CAS number

592-31-0

IUPAC name

butylurea

State

Butylurea is a solid at room temperature, possessing a crystalline structure that is common among urea derivatives.

Melting point (Celsius)

153.00

Melting point (Kelvin)

426.15

Boiling point (Celsius)

274.00

Boiling point (Kelvin)

547.15

General information

Molecular weight

116.16g/mol

Molar mass

116.1590g/mol

Density

1.0380g/cm³

Appearence

Butylurea typically appears as a white crystalline solid. It is characterized by its granular structure and is often powdered for various chemical applications.

Comment on solubility

Solubility of Butylurea

Butylurea, with the chemical formula C₅H₁₁N₁O₁, is a compound that presents interesting characteristics regarding its solubility. Here are some important points to consider:

Polar Solvent Interaction: Butylurea is considerably soluble in polar solvents such as water, thanks to the presence of the urea functional group, which enables hydrogen bonding.
Non-Polar Solvent Behavior: In contrast, butylurea exhibits limited solubility in non-polar solvents, reflecting its polar nature.
Temperature Dependence: Its solubility tends to increase with temperature, as is common with many organic compounds, making it more versatile in various applications.

To summarize, as one might say, "Butylurea loves the company of water," showcasing its strong affinity for polar solvents while standing apart from more hydrophobic substances. This unique solubility profile makes it valuable in various scientific and industrial processes, particularly those that involve aqueous solutions.

Interesting facts

Interesting Facts about Butylurea

Butylurea, an intriguing organic compound, features prominently in various scientific studies and applications. Here are some interesting insights:

Structure & Composition: Butylurea is derived from urea, with a butyl group attached. This modification influences its chemical properties and interactions within different environments.
Applications: It serves multiple purposes across several fields:
- Agriculture: As a slow-release nitrogen fertilizer, it provides essential nutrients to plants.
- Pharmaceuticals: It is utilized in the synthesis of various active pharmaceutical ingredients.
- Industrial Use: Its properties find roles in manufacturing and as a surfactant in different formulations.
Environmental Impact: Being biodegradable, butylurea poses a lower risk to the environment compared to some more persistent organic pollutants, making it a favorable choice in sustainable practices.
Research Potential: Scientists are exploring butylurea's role in medicinal chemistry, particularly in drug formulation and delivery systems due to its compatibility with biological systems.

In a statement by a leading researcher, "Butylurea illustrates the fascinating balance between structure and function in organic compounds. Its versatility opens doors to innovations in both technology and agriculture."

Overall, butylurea stands as a testament to the power of functional group modifications in chemistry, embodying a world of potential applications and environmental considerations.

Synonyms

N-BUTYLUREA

Butylurea

1-Butylurea

Urea, butyl-

Urea, N-butyl-

NCI-C02131

HSDB 5497

N-n-Butylurea

UNII-9CPL5NR15K

NSC 2597

EINECS 209-748-4

BRN 1744775

DTXSID6020222

AI3-52319

NSC-2597

N-BUTYLUREA [HSDB]

DTXCID20222

4-04-00-00578 (Beilstein Handbook Reference)

nButylurea

1Butylurea

Urea, butyl

cnwsqclbdwylan-uhfffaoysa-n

592-31-4

MFCD00007956

9CPL5NR15K

NSC2597

CAS-592-31-4

n-BUTYL UREA

butyl urea

butyl-urea

N-Butylurea, 99%

WLN: ZVM4

SCHEMBL42513

CHEMBL3182932

SCHEMBL22493264

Tox21_202015

Tox21_302837

AKOS000199394

NCGC00249150-01

NCGC00256604-01

NCGC00259564-01

AS-56323

SY049645

DB-053344

B1831

NS00022456

EN300-20880

D88864

Q27272364

F0001-1554