Nitric acid, magnesium salt (2:1) (CAS 10377-60-3) — Citrus N/A Note Fragrance Ingredient
Nitric acid, magnesium salt (2:1)
CAS 10377-60-3
What Is Nitric acid, magnesium salt (2:1)?
Nitric acid, magnesium salt (2:1) is a synthetic chemical compound primarily used in industrial applications rather than consumer products. It’s encountered in specialized chemical processes and laboratory settings. This compound doesn’t have significant fragrance applications and isn’t commonly found in household items or personal care products.
Safety Profile
PROFESSIONAL USEWhat Does Nitric acid, magnesium salt (2:1) Smell Like?
This compound has no significant odor profile suitable for fragrance applications. As an inorganic salt, it lacks the volatile organic characteristics required for olfactory detection or perfumery use. Industrial chemicals like this magnesium nitrate compound are not formulated for their aromatic properties.
2D Molecular Structure
SMILES: [Mg++].[O-][N+]([O-])=O.[O-][N+]([O-])=O
Chemistry, Properties & Perfumer Guide
The Chemistry
Magnesium nitrate is an inorganic salt composed of magnesium cations and nitrate anions. It’s produced through neutralization reactions between magnesium hydroxide or magnesium oxide with nitric acid. The compound exists as a white crystalline solid and is highly soluble in water. Unlike organic fragrance materials, this salt lacks the molecular complexity and volatility needed for olfactory applications.
Physical & Chemical Properties
| Appearance | White crystalline solid |
|---|---|
| Solubility | Highly soluble in water |
Perfumer Guide
| Application | Typical % | Range | Notes |
|---|---|---|---|
| Industrial | Not applicable | Not applicable | No fragrance applications |
Classic Accords
Tip: This compound is not suitable for perfumery applications.
Alternatives & Comparisons
Safety, Regulatory & Sustainability
⚠ Regulatory Disclaimer
General reference only. Consult current IFRA Standards Library before formulating.
IFRA Status
Not regulated by IFRA as it has no fragrance applications.
GHS Classification
RIFM Assessment
Not evaluated by RIFM as it has no fragrance applications.
Sustainability
Magnesium nitrate is produced synthetically through industrial chemical processes. Its environmental impact relates primarily to industrial handling and disposal rather than fragrance applications. As an inorganic salt, it doesn’t raise the same sustainability concerns as volatile organic compounds but requires proper handling to prevent environmental contamination.
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Layer 3 · Practical
- Molecular Weight: 148.32 g/mol
Physicochemical Properties
DTXSID: DTXSID4049664
Physical Properties
| Molecular Weight | 148.313 g/mol🔬 EPA CompTox |
| Density | 1.743 g/cm^3🔬 EPA CTX |
| Boiling Point | 330 °C🔬 PubChem |
| Melting Point | 88.889 °C🔬 EPA CTX |
| Flash Point | 204 °C📊 PubChem |
Partition & Solubility
| LogP (Octanol-Water) | -0.859 dimensionless💻 Computed |
Transport Properties
| Vapor Pressure | 0.492 mmHg🔬 EPA CTX |
Molecular Descriptors
| Topological Polar Surface Area | 132.4 Ų💻 Computed |
| H-Bond Donors | 0 count💻 Computed |
| H-Bond Acceptors | 6 count💻 Computed |
| Rotatable Bonds | 0 count💻 Computed |
| Aromatic Rings | 0 count💻 Computed |
| Molar Refractivity | 26.48 cm^3/mol💻 Computed |
Data Sources:
🔬 EPA Experimental data from U.S. EPA CompTox Chemicals Dashboard & CTX APIs. 📊 OPERA Predicted using EPA's OPERA QSAR models. 💻 Computed Calculated from SMILES using RDKit.
