Hyponitrous acid is an isomer of nitramide with the chemical formula H2N2O2. It is a chemical compound whose IUPAC name is (E)-dihydroxydiazene. This acid is also called a hyponitrous acid dimer. Colorless crystals of hyponitrous acid are formed from ether solutions which readily decompose explosively when heated. The two series of salts formed by hyponitrous acid are the “hyponitrites,” which contain the [ON=NO]2− anion, and the other one is the “acid hyponitrites,” which contain the [HON=NO]− anion. This acid has two possible structures, i.e., trans-hyponitrous acid and cis-hyponitrous acid, where its trans form is more stable. The Cis of the acid form is unknown but its sodium salt can be obtained. The white crystals of trans-hyponitrous acid become explosive when dry. This acid plays a key role in enzymology, where a hyponitrite reductase enzyme catalyzes the chemical reaction.
Preparation of Hyponitrous Acid
- trans-hyponitrous acid is synthesized when Silver(I) hyponitrite is treated with an anhydrous HCl in the ether. A solid hyponitrous acid is formed after the evaporation of the ether. It is a weak dibasic acid (pKa1 = 7.21, pKa2 = 11.54) and an explosive compound.
Ag2N2O2 + 2HCl → H2N2O2 + 2AgCl
The acid decomposes into nitrous oxide and water in an aqueous solution with a half-life of 16 days at 25 °C at pH 1–3.
H2N2O2 → H2O + N2O
Though N2O is formally an anhydride of H2N2O2, the acid cannot be prepared from the reaction of N2O and water.
- Hyponitrous acid can also be produced from hydroxylamine and nitrous acid.
NH2OH + HNO2 → H2N2O2 + H2O
- We can also synthesize hyponitrous acid by the oxidation of hydroxylamine with HgO.
2NH2OH + 2HgO → H2N2O2 + 2Hg + 2H2O
Structure of Hyponitrous Acid
The molecular or chemical formula of hyponitrous acid is H2N2O2. Its linear formula is HON=NOH and its SMILES (Simplified molecular-input line-entry system) form is N(=NO)O. This acid has two possible structures, i.e., trans-hyponitrous acid and cis-hyponitrous acid.
Properties of Hyponitrous Acid
|
Chemical Formula |
H2N2O2 |
|---|---|
|
IUPAC name |
(E)-dihydroxydiazene |
|
Molar mass/Molecular weight |
62.0282 g/mol |
|
Appearance |
white crystals |
|
Conjugate base |
Hyponitrite |
|
Hydrogen bond acceptors |
4 |
|
Hydrogen bond donors |
2 |
Other Experimental properties and reactions
- Hyponitrous acid reacts with the oxygen in the air and produces nitric and nitrous acids.
H2N2O2 + 3O2 → 2HNO3 + 2HNO2
- Hyponitrous acid reacts with hydrogen chloride (HCl) and atomic hydrogen (H2) and produces hydrazinium chloride (N2H5Cl) and water.
H2N2O2 + HCl + 3H2 → N2H5Cl + 2H2O
- Hyponitrous acid decomposes into nitrous oxide and water in an aqueous solution.
H2N2O2 → H2O + N2O
- When hyponitrous acid reacts with potassium permanganate and sulfuric acid solution, manganese(II) sulfate, nitric acid, potassium sulfate, and water are produced.
5H2N2O2 + 8KMnO4 + 12H2SO4 → 8MnSO4 + 10HNO3 + 4K2SO4 + 12H2O
Uses of Hyponitrous Acid
- The hyponitrous acid plays a key role in enzymology, where a hyponitrite reductase enzyme catalyzes the chemical reaction.
Hazards
- The white crystals of trans-hyponitrous acid become explosive when dry.
FAQs on Hyponitrous Acid
Question 1: What is hyponitrous acid?
Answer:
Hyponitrous acid is an isomer of nitramide with the chemical formula H2N2O2. This acid has two possible structures, i.e., trans-hyponitrous acid and cis-hyponitrous acid.
Question 2: Mention the number of hydroxyl groups present in hyponitrous acid.
Answer:
The chemical formula of hyponitrous acid is H2N2O2 while its structure is OH-N=N-OH. From the structure of the hyponitrous acid, we can observe that two hydroxyl groups are present on either side of both nitrogen atoms. So, the number of hydroxyl groups present in hyponitrous acid is two.
Question 3: How is hyponitrous acid prepared?
Answer:
- Silver(I) hyponitrite and anhydrous HCl in the ether are used to synthesize trans-hyponitrous acid.
Ag2N2O2 + 2HCl → H2N2O2 + 2AgCl
- Hyponitrous acid reacts with hydrogen chloride (HCl) and atomic hydrogen (H2) and produces hydrazinium chloride (N2H5Cl) and water.
H2N2O2 + HCl + 3H2 → N2H5Cl + 2H2O
Question 4: Mention some properties of hyponitrous acid.
Answer:
The preferred IUPAC name of hyponitrous acid is (E)-dihydroxydiazene. Its chemical formula is H2N2O2 and its molecular weight or molar mass is 62.0282 g/mol. Its conjugate is hyponitrite and occurs as white crystals in its trans-form.
Question 5: Mention some applications of hyponitrous acid.
Answer:
The hyponitrous acid plays a key role in enzymology, where a hyponitrite reductase enzyme catalyzes the chemical reaction.
Question 6: What happens when hyponitrous acid reacts with oxygen?
Answer:
Hyponitrous acid reacts with the oxygen in the air and produces nitric and nitrous acids.
H2N2O2 + 3O2 → 2HNO3 + 2HNO2