Ureidourea | Solubility of Things

Identification

Molecular formula

C₂H₆N₄O₂

CAS number

721-60-8

IUPAC name

ureidourea

State

At room temperature, ureidourea is typically in a solid state. Like many similar compounds, its solid state at room temperature is due to its crystalline structure, which imparts stability and firmness to the material.

Melting point (Celsius)

180.00

Melting point (Kelvin)

453.15

Boiling point (Celsius)

295.00

Boiling point (Kelvin)

568.15

General information

Molecular weight

118.09g/mol

Molar mass

118.0910g/mol

Density

1.4880g/cm³

Appearence

Ureidourea typically appears as a white crystalline solid. It is a compound that can have a variety of appearances depending on the purity and specific form. However, the most commonly encountered form in the laboratory is the crystalline solid form, which is characteristic of many urea derivatives.

Comment on solubility

Solubility of Ureidourea

The solubility of ureidourea, a compound widely recognized for its application in various chemical processes, is notably high in water due to its molecular structure. Understanding its solubility is crucial for optimizing its use in different environments. Here are some key points about the solubility of ureidourea:

Polar Nature: The presence of polar functional groups contributes to its ability to dissolve effectively in polar solvents such as water.
Hydrogen Bonding: Ureidourea can form hydrogen bonds with water molecules, enhancing its solubility.
Temperature Dependence: Like many compounds, its solubility may increase with temperature, though specific data need to be referenced for precise values.
Comparison with Other Solvents: Ureidourea is less soluble in non-polar solvents, which reflects its affinity for polar solvents.

In summary, ureidourea is characterized by its high solubility in water, making it a valuable compound in various applications where aqueous solutions are involved. Understanding its solubility properties helps in designing effective chemical processes and formulations.

Interesting facts

Interesting Facts about Ureidourea

Ureidourea, a compound belonging to the category of ureas, is of particular interest in both organic chemistry and agricultural applications. It serves as a fundamental building block in the synthesis of more complex nitrogen-containing compounds.

Chemical Significance

Amide Derivative: Ureidourea is an amide derivative that displays unique reactivity, making it an important intermediate in syntheses.
Nitrogen Source: It is a valuable nitrogenous compound that can be utilized effectively in fertilizers, contributing to improved plant growth.
Biological Relevance: In biological systems, it has potential applications in the modulation of metabolic pathways.

Applications and Uses

Agricultural Use: Ureidourea is utilized in the formulation of slow-release fertilizers, which help reduce nutrient loss due to leaching.
Pharmaceuticals: The compound plays a role in drug synthesis, aiding in the development of various biologically active molecules.
Analytical Chemistry: Ureidourea can serve as a reagent in various analytical techniques, helping chemists better understand complex reactions.

Interesting Notes

What sets ureidourea apart is its ability to form hydrogen bonds due to its amide group, which enhances its solubility and reactivity in biological systems. Scientists often refer to it as a “smart nitrogen source,” as it provides a sustained release of nitrogen, promoting more efficient uptake by plants.

In summary, ureidourea is not only significant in chemical research but also showcases its practicality in real-world applications. Whether in agriculture or drug development, it continues to be a compound of substantial interest within the scientific community.

Synonyms

Biurea

110-21-4

hydrazine-1,2-dicarboxamide

1,2-HYDRAZINEDICARBOXAMIDE

Ureidourea

(carbamoylamino)urea

Bicarbamamide

Bicarbamimidic acid

Hydrazodicarbonamide

Hydrazodicarboxamide

Hydradicarbonamide

Hydrazocarbonamide

Urea, ureido-

Pseudourea, 3-ureido-

N,N'-Dicarbamoylhydrazine

Semicarbazide, 1-carbamoyl-

Ureidoureacarboxamide

N,N'-Biscarbamoylhydrazine

1,1-Hydrazoformamide

Hydrazinedicarboxylic acid diamide

Formimidic acid, 1-semicarbazido-

1,1'-Hydrazobis(formamide)

Hydrazine, 1,2-dicarbamoyl-

Semicarbazide, 1-(1-hydroxyformimidoyl)-

Formamide, 1,1'-hydrazobis-

Hydrazine, 1,2-bis(aminocarbonyl)-

Bicarbamimidic acid (VAN)

NSC 1897

CCRIS 5976

Hydrazinecarboximidic acid, 2-(aminocarbonyl)-

HSDB 5014

POJ4UOY01H

EINECS 203-747-2

DTXSID6024628

AI3-28537

NSC-1897

DTXCID404628

HYDRAZINE-N,N'-BIS(CARBOXAMIDE)

1,2-HYDRAZINEDICARBOXAMIDE [HSDB]

UNII-POJ4UOY01H

Diharnstoff

Hydrazodiformamide

Urea, ureido

1,1Hydrazoformamide

Pseudourea, 3ureido

MFCD00025398

HYDRAZODICARBAMIDE

Hydrazine,2-dicarbamoyl-

N,N'Biscarbamoylhydrazine

Semicarbazide, 1carbamoyl

DICARBAMOYLHYDRAZINE

Formamide,1'-hydrazobis-

Hydrazine, 1,2dicarbamoyl

1,1'-Hydrazinebisformamide

1,1'Hydrazobis(formamide)

Formamide, 1,1'hydrazobis

N,N\'-Dicarbamoylhydrazine

SCHEMBL21785

1,1-HYDRAZOFORM AMIDE

Formimidic acid, 1semicarbazido

CHEMBL3188383

SCHEMBL22821618

Hydrazine,2-bis(aminocarbonyl)-

NSC1897

Hydrazine, 1,2bis(aminocarbonyl)

ALBB-013477

Tox21_300989

STL281876

Semicarbazide, 1(1hydroxyformimidoyl)

AKOS005174048

SB86000

NCGC00248246-01

NCGC00254891-01

AS-59029

CAS-110-21-4

DB-040907

B0512

CS-0149929

Hydrazinecarboximidic acid, 2(aminocarbonyl)

NS00021512

D81814

EN300-7413859

Q4919204

77107-48-3