Electrode Reactions of Elemental (White) Phosphorus and Phosphane PH3

Electrochemical methods have become important from the viewpoint of the development and creation of new ecologically safe and resource-saving chemical processes. The use of electrons as a universal and inexhaustible reagent for chemical reactions is the main advantage of electrochemical tools. Although electrochemical processes have been already successfully applied in the preparation of different classes of practically important chemical compounds, a very limited number of industrially applicable electrochemical processes that involve elemental (white) phosphorus is currently known, except for some examples of the electrochemical production of phosphane PH3. These are mainly associated with the investigation of bulk reactions of the electrochemically activated P-4 molecule and phosphorus intermediates derived therefrom; very limited attention has been paid to the electrode surface reactions as a key stage of the electrochemical process. In this Microreview we describe the electrode reactions of elemental (white) phosphorus and phosphane that accompany the electrochemical process of the preparation of some phosphorus compounds starting directly from P-4. The important role of the nature of the electrode material, the reactivity of the formed phosphorus intermediates and the surface processes are discussed. Moreover, recently, we succeeded in discovering a new, previously unstable phosphorus compound, phosphane oxide H3PO, which can be easily produced using an electrochemical method by mild anodic oxidation of phosphane PH3 electrochemically formed from P-4. In this respect, some attention has been paid to the electrochemically induced processes of PH3 oxidation that result in the selective formation of phosphane oxide, which is of high interest from the viewpoint of the investigation of its properties and reactivity.