10377-60-3

Basic information

• Product Name: Magnesium nitrate
• Synonyms: MG-1000;RIEKE(R) MAGNESIUM;ASHING ACID;AQUANAL-PLUS MAGNESIUM;AQUANAL(R)-PLUS MAGNESIUM;MAGNESIUM AA/ICP CALIBRATION/CHECK STANDARD;MAGNESIUM AA SINGLE ELEMENT STANDARD;MAGNESIUM, AAS STANDARD SOLUTION
• CAS NO: 10377-60-3
• Molecular Formula: MgN2O6
• Molecular Weight: 148.3148
• EINECS: 231-104-6
• Product Categories: Inorganics;ICP CRMsAlphabetic;Application CRMs;ICP-OES/-MS;ICPSpectroscopy;M;MA - MDSpectroscopy;Matrix Selection;Nitrate;Spectroscopy;MA - MD;Cationic SolutionsChromatography;Cationic Standard SolutionsAlphabetic;Ion Chromatography;Ion Chromatography Standards;AAS;AAS CRMsAlphabetic;AASSpectroscopy;Analytical Reagents;Replacement Kit Items;Water Test
• Mol File: 10377-60-3.mol
• Article Data: 0

Chemical Properties

• Melting Point: 648 °C(lit.)
• Boiling Point: 1090 °C(lit.)
• Flash Point: −26 °F
• Appearance: /turnings
• Density: 0.889 g/mL at 25 °C
• Vapor Pressure: 1 mm Hg ( 621 °C)
• Solubility: H2O: soluble
• Water Solubility: Freely soluble in water. Moderately soluble in ethanol and ammonia.
• Sensitive: Hygroscopic
• Merck: 13,5697
• CAS DataBase Reference: Magnesium nitrate(CAS DataBase Reference)
• NIST Chemistry Reference: Magnesium nitrate(10377-60-3)
• EPA Substance Registry System: Magnesium nitrate(10377-60-3)

Safety Data

• Hazard Codes: C,Xi,O
• Statements: 34-36/37/38-8-36/38-35
• Safety Statements: 43-7/8-26-17-36-45-36/37/39
• RIDADR: UN 2056 3/PG 2
• RTECS: OM3756000
• TSCA: Yes
• HazardClass: 5.1
• Hazardous Substances Data: 10377-60-3(Hazardous Substances Data)

Usage

Physical Properties

The anhydrous salt consists of white cubic crystals; density 2.3 g/cm3; very soluble in water. The dihydrate is white crystalline solid having density 1.45 g/cm3; decomposes at about 100°C; soluble in water and ethanol. The hexahydrate, MgNO3?6H2O is a colorless solid having monoclinic crystal structure and density 1.46 g/cm3. The salt is hygroscopic and very soluble in water and moderately soluble in ethanol.

Occurrence and Uses

The hexahydrate, Mg(NO3)2?6H2O, occurs in nature as mineral nitromagnesite. Magnesium nitrate is used in pyrotechnics; and in the manufacture of concentrated nitric acid to remove water and concentrate the acid vapors to 90–95% HNO3. It also is used to aid coating and prilling in production of ammonium nitrate. The salt also is used as an analytical standard for magnesium and a matrix modifier in furnace atomic absorption spectroscopic analysis. It also finds some limited application as a nitrogenous fertilizer.

Preparation

Different sources of media describe the Preparation of 10377-60-3 differently. You can refer to the following data:
1. Magnesium nitrate is prepared by the action of nitric acid on magnesium carbonate, oxide or hydroxide: MgCO3 + 2HNO3 → Mg(NO3)2 + CO2 + H2O Mg(OH)2 + 2HNO3 → Mg(NO3)2 + 2H2O The salt crystallizing at room temperature after evaporation is the hexahydrate, Mg(NO3)2?2H2O.
2. The magnesium nitrate used in commerce has been synthesized in a variety of ways. The reaction between nitric acid and magnesium metal is one way and reaction with MgO is another. Magnesium hydroxide and ammonium nitrate also form the product but ammonia is released as a by-product: 2HNO3 + Mg Mg(NO3)2 +H2 2HNO3 + MgO Mg(NO3)2 +H2O Mg(OH)2 + 2NH4NO3 Mg(NO3)2 + 2NH3 + 2H2O Since magnesium nitrate has a high affinity for water, heating the hexahydrate does not result in the dehydration of the salt. Instead, it decomposes into magnesium oxide, oxygen and nitrogen oxides: 4Mg(NO3)2·6H2O + heat 4MgO + 2NO2 + 2N2O + O2 + 6H2O Heating the hexahydrate above its melting point first forms basic nitrates, such as Mg(NO3)2·4Mg(OH)2. It is this salt that decomposes at 400 C, forming magnesium oxide and oxides of nitrogen. The absorption of these nitrogen oxides in water is one possible way to synthesize HNO3. Although it is inefficient, it does not require the use of another strong acid and the mineral, nitromagnesite, can be used in this context.

Reactions

Thermal decomposition of anhydrous Mg(NO3)2 yields magnesium oxide and nitrogen oxides. Heating the hexahydrate above its melting point forms basic nitrates, such as Mg(NO3)2?4 Mg(OH)2. The latter decomposes at 400°C, forming magnesium oxide and oxides of nitrogen. Magnesium nitrate forms addition compounds with a number of nitrogen-containing organics such as pyridine, aniline, and urea.

Description

Magnesium nitrate has the molecular formula of Mg(NO3)2 and the molecular weight of 148.3152 g/ mol. Magnesium nitrate is prepared by the action of nitric acid on magnesium carbonate, oxide or hydroxide: MgCO3 + 2HNO3 ? Mg(NO3)2 + CO2 +H2O Mg(OH)2 + 2HNO3 ? Mg(NO3)2 + 2H2O The salt crystallizing at room temperature after evaporation is the hexahydrate, Mg(NO3)2·6H2O. Two stable hydrates are formed, the hexahydrate [CAS number =13446-18-9] and the dihydrate, Mg(NO3)2· 2H2O [CAS number = 15750-45-5].

Chemical Properties

White crystals.Soluble in water and alcohol; deliquescent.

Uses

Different sources of media describe the Uses of 10377-60-3 differently. You can refer to the following data:
1. In pyrotechnics; in the concentration of nitric acid.
2. It is used in printing, chemical, agriculture and ceramics industries. Its fertilizer grade has 10.5% nitrogen and 9.4% magnesium.

Definition

ChEBI: The inorganic nitrate salt of magnesium.

General Description

A white crystalline solid. Produces toxic oxides of nitrogen if heated to decomposition. Used in pyrotechnics.

Air & Water Reactions

Deliquescent. Water soluble.

Reactivity Profile

Mixtures of Magnesium nitrate with alkyl esters may explode owing to the formation of alkyl nitrates; mixtures with phosphorus, tin(II) chloride, or other reducing agents may react explosively [Bretherick 1979 p. 108-109]. Noncombustible but will accelerate the burning of combustible materials. If large quantities are involved in a fire or the combustible material is finely divided an explosion may result. Prolonged exposure to fire or heat may result in an explosion. Magnesium nitrate has been reported to undergo spontaneous decomposition in dimethylformamide [Bretherick 5th ed., 1995]. Magnesium nitrate tends to behave as a strong oxidizer.

Hazard

Dangerous fire and explosion risk in contact with organic materials, strong oxidizing agent.

Health Hazard

Exposure can cause mild irritation to the mucous membranes. Symptoms may include coughing and shortness of breath. Ingestion of large doses may cause dizziness, abdominal pain, vomiting, bloody diarrhea, weakness, convulsions, and collapse. Contact with skin may cause irritation, redness, and pain.

Flammability and Explosibility

Nonflammable

Safety Profile

Probably a severe irritant to the eyes, skin, and mucous membranes. A powerful oxidizer. Violent decomposition on contact with dmethylformamide. When heated to decomposition it emits toxic fumes of NOx. See also NITRATES and MAGNESIUM COMPOUNDS.

InChI:InChI=1/Mg.NO3/c;2-1(3)4/q+2;-1

Related news

Cathodic electrophoretic deposition of Magnesium nitrate (cas 10377-60-3) modified graphene coating as a macro-scale solid lubricant07/31/2019

Graphene had been studied as a macro-scale solid lubricant intensively due to its excellent tribological properties. The electrophoretic deposition (EPD) was supposed to be an effective method of fabricating graphene-related materials, but it was not naturally applicable to the inherently unchar...detailed

The effect of added Magnesium nitrate (cas 10377-60-3) on the thermophysical property of sodium nitrate07/30/2019

In the centralized solar power generation system, the molten salt is a key component for storing and transferring heat energy. By adding Mg(NO3)2 to NaNO3 at various mass ratios, nine binary nitrate specimens were prepared.The melting point, decomposition temperature, specific heat and latent he...detailed

Effect of the impurity Magnesium nitrate (cas 10377-60-3) in the thermal decomposition of the solar salt07/29/2019

Nowadays, the most matured thermal energy storage (TES) technology for Concentrated Solar Power (CSP) plants is the use of molten solar salts (60 wt% NaNO3 – 40 wt% KNO3), but the thermal decomposition of nitrate salts can result in changes in the composition of molten salts or potential risks ...detailed