Regeneration Recycled Manganese (IV) oxide MnO2 Manganese Dioxide
CAS :1313-13-9
MF:MnO2
EINECS:215-202-6
TYPE: Recycling / Recycled / Regeneration
Manganese Dioxide is a commonly utilized oxidant and can be widely applied in various oxidation reactions. It can also serve as a catalyst for some chemical reactions, such as the decomposition of hydrogen perxide to oxygen and the decomposition of potassium chlorte to oxygen. Manganese dioxide is frequently employed in industrial fields such as batteries, pigments, and synthetic polymers.
Sample Description : One solid sample packed in plastic bag
Sample Marking : Manganese Oxide
Test Parameter |
Result |
Method |
Manganese,Mn |
mg/kg |
% |
In house method:Acid digestion followed by ICP-OES |
629761.96 |
62.98 |
Other Element in Sample Manganese Oxide
Sample Marking :Mangenese Oxide
Label |
Ba (mg/ L) |
Ca (mg/ L) |
Fe (mg/ L) |
Hg (mg/ L) |
Mg (mg/ L) |
Mn (mg/ L) |
Na (mg/ L) |
Nb (mg/ L) |
Rh (mg/ L) |
1 |
2.77 |
180.3 |
51.86 |
0.32 |
36.34 |
626338.388 |
1841.64 |
28.88 |
4931.5 |
2 |
2.31 |
176.39 |
53.76 |
|
34.29 |
633185.523 |
1940.07 |
|
|
Label |
S (mg/ L) |
Se (mg/ L) |
Si (mg/ L) |
Sr (mg/ L) |
Ta (mg/ L) |
Ti (mg/ L) |
Tm (mg/ L) |
Y (mg/ L) |
Zn (mg/ L) |
1 |
312.68 |
318.67 |
114.81 |
0.51 |
200.82 |
6.73 |
21.75 |
2.12 |
|
2 |
296.84 |
312.88 |
108.39 |
|
208.3 |
6.46 |
21.45 |
|
4.98 |
Molecular Weight of:
Manganese, Mn : 54.94 g/mol
Oxygen, O : 16.00 g/mol
Manganese Oxide, MnO2 : 86.94 g/mol
Percentage of Manganese in Manganese Oxide, MnO2:63.19 %
Percentage of Manganese Oxide, MnO2:99.66%
(1) Battery: Manganese dioxide can serve as a dry battery deactivator. It is applied in zinc-carbon batteries, alkaline batteries
and other dry batteries to supply power to electronic gadgets.
(2) Pigment: Manganese dioxide can function as a coloring agent to offer particular tints for glass, ceramics and other products.
For example, it can color glass as purple, blue, black and so on.
(3) Catalysts and oxidants: Manganese dioxide has strong adsorption capacity and can efficiently trigger and advance various
chemical reactions, and it holds an important position in the synthesis field.