Manganese hypophosphite, with CAS number 7783-16-6, is mainly produced from sodium hypophosphite and calcium hypophosphite. It is characterized by its easy solubility in water, relatively low density, extremely high boiling point, odorless nature, solubility in ethanol, and insolubility in most organic solvents. Manganese hypophosphite can be used to prepare other manganese compounds or as an additive in ceramic materials due to its good thermal and chemical stability. It can also be used to prepare battery materials such as lithium manganese oxide batteries, improving battery energy density and cycle life.

I. Basic Information

English Name: Manganese hypophosphite

Molecular Formula: Mn(H2PO2)·H2O

Molecular Weight: 202.93

CAS No: 7783-16-6

Properties: Pink, colorless, odorless crystals or powder; spontaneously releases flammable phosphine upon heating; 1 gram dissolves in 6.5 ml of cold water or 60 ml of hot water; insoluble in alcohol.

II. Product Specifications

Appearance: Pink, colorless, odorless crystals or powder

Content≥95%

Total Moisture Content≤ 10%

pH Value: 2-4

Iron (ppm)≤0.01%

III. Uses

Food additive, pharmaceutical precursor, polymer catalyst, reducing agent in chemical synthesis. Manganese hypophosphite can be used to treat anemia, as a tonic in medicine, and in the production of compound hypophosphite syrups, etc. It can catalyze oxidation and hydrogenation reactions in organic synthesis.

IV. Storage

Store in a sealed container indoors, avoiding contact with air and moisture. Store in a cool place, away from direct sunlight.

V. Packaging

50-pound fiber drum, lined with a polyethylene bag.

Manganese hypophosphite exhibits good chemical stability and does not easily decompose at room temperature. This stability allows manganese hypophosphite to maintain its chemical properties in various chemical reactions, thus enabling its effective application in multiple fields. It can be used as a catalyst in oxidation and hydrogenation reactions. Its catalytic performance mainly stems from the characteristics of Mn2+ ions in its crystal structure. These ions can provide abundant reaction centers, interact with substrate molecules, and promote chemical reactions.