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Praseodymium Oxide (Pr6O11) Nanopowder / Nanoparticles (Pr6O11, 99.9%, 10-100 nm)

widely used in magnetic material, catalyst……………………

Praseodymium Oxide Nanopowder
Product No NRE-3048
CAS No. 12037-29-5
Formula Pr6O11
APS <100nm  (Can be Customized)
Purity 99.9%
Color Dark Brown
Molecular Weight 1021.44 g/mol
Density 6.5 g/cm3
Melting Point 2183 °C
Boiling Point 3760 °C

Praseodymium Oxide Nanopowder / Nanoparticles

Praseodymium Oxide Nanoparticles Applications: Widely used in magnetic material, catalyst…

A phase study of the praseodymium oxide system in the composition range from Pr203 to Pr6011 was performed using an equilibrium dissociation pressure method which provides for the construction of isothermal curves (equilibrium oxygen pressure, oxide composition). The pressure-composition diagram is interpreted as indicative of the existence of four separate non-stoichiometric regions in the range from Prz03 to Pr6011 and the existence of five stable phases or stability regions, in the same interval. The conditions for the existence of the various Das are qualitatively discussed in terms of the theory of non-stoichiometric compounds.

Praseodymium oxide powder

Recently, some interesting research has been conducted on praseodymium oxides as well as Prz03. The results are in some places apparently contradictory and in others quite disconcerting.

Because of the difficulties in interpreting data.

purchased. In particular: (1) there is disagreement

as regards the composition Pr6OI1 (Pro1. &)

represents a point within a non-stoichiometric

The composition range or an isolated point in the

Pro, phase diagram; (2) even if there is a lot

Proof of the existence of separate non-stoichiometric data.

Rankings between and Pro2, nature.

and the extent of these regions has not been established.

For example, the dissociation pressure of Xsprey.

The temperature diagram6 shows eight changes.
Slope in the composition range Prol b-PrO1 83.

From his appearance, from the reference work

above, that the Pro system could afford to capture attention

Example of the non-stoichiometric existence.

phases, it was thought that a more in-depth study of the

The Prol 5-PrOl 83 range can be interesting. the

(P, X) The T method has been selected as one that could be given

Unmistakable information This method has the

More advantage than the experimental technique.

It can be adapted to conveniently cover a large layout.