Views: 16 Author: ivy Publish Time: 2024-07-12 Origin: Site
Item | Test Standard |
Assay (P2O5)% | ≥99.5 |
Active R value | 1.2 |
Reducing Matter (as P2O3)% | ≤0. 01 |
Water insoluble matter % | ≤0. 02 |
Total N (N)% | ≤0. 01 |
Heavy metals (Pb)% | ≤0. 002 |
As% | ≤0.008 |
Fe% | ≤0.003 |
Phosphorus pentoxide is a potent dehydrating agent as indicated by the exothermic nature of its hydrolysis producing phosphoric acid:
P4O10 + 6 H2O → 4 H3PO4 (–177 kJ)
However, its utility for drying is limited somewhat by its tendency to form a protective viscous coating that inhibits further dehydration by unspent material. A granular form of P4O10 is used in desiccators.
Consistent with its strong desiccating power, P4O10 is used in organic synthesis for dehydration. The most important application is for the conversion of primary amides into nitriles:[7]
P4O10 + RC(O)NH2 → P4O9(OH)2 + RCN
The indicated coproduct P4O9(OH)2 is an idealized formula for undefined products resulting from the hydration of P4O10.
Alternatively, when combined with a carboxylic acid, the result is the corresponding anhydride:[8]
P4O10 + RCO2H → P4O9(OH)2 + [RC(O)]2O
The "Onodera reagent", a solution of P4O10 in DMSO, is employed for the oxidation of alcohols.[9] This reaction is reminiscent of the Swern oxidation.
The desiccating power of P4O10 is strong enough to convert many mineral acids to their anhydrides. Examples: HNO3 is converted to N2O5; H2SO4 is converted to SO3; HClO4 is converted to Cl2O7; CF3SO3H is converted to (CF3)2S2O5.
As a proxy measurement[edit]
P2O5 content is often used by industry as proxy value for all the phosphorus oxides in a material. For example, fertilizer grade phosphoric acid can also contain various related phosphorous compounds which are also of use. All these compounds are described collectively in terms of 'P2O5 content' to allow convenient comparison of the phosphorous content of different products. Despite this, phosphorus pentoxide is not actually present in most samples as it is not stable in aqueous solutions.