Palladium-hydrogen electrode

The palladium-hydrogen electrode (abbreviation: Pd/H₂) is one of the common reference electrodes used in electrochemical study.^[1] Most of its characteristics are similar to the standard hydrogen electrode (with platinum). But palladium has one significant feature—the capability to absorb (dissolve into itself) molecular hydrogen.^[2][3]

Two phases can coexist in palladium when hydrogen is absorbed:

• alpha-phase at hydrogen concentration less than 0.025 atoms per atom of palladium
• beta-phase at hydrogen concentration corresponding to the non-stoichiometric formula PdH_0.6

The electrochemical behaviour of a palladium electrode in equilibrium with H₃O⁺ ions in solution parallels the behaviour of palladium with molecular hydrogen

${\displaystyle \frac{1}{2}{\mathrm{H}}_2={\mathrm{H}}_{ads}={\mathrm{H}}_{abs}}$

Thus the equilibrium is controlled in one case by the partial pressure or fugacity of molecular hydrogen and in other case—by activity of H⁺-ions in solution.

${\displaystyle E=E^0+\frac{RT}{F}\ln \frac{a_{{\mathrm{H}}^{+}}}{(\frac{p_{\mathrm{H}2}}{p^0}{)}^{1/2}}}$

When palladium is electrochemically charged by hydrogen, the existence of two phases is manifested by a constant potential of approximately +50 mV compared to the reversible hydrogen electrode. This potential is independent of the amount of hydrogen absorbed over a wide range. This property has been utilized in the construction of a palladium/hydrogen reference electrode. The main feature of such electrode is an absence of non-stop bubbling of molecular hydrogen through the solution as it is absolutely necessary for the standard hydrogen electrode.

• Dynamic hydrogen electrode
• Reversible hydrogen electrode

Template:Reflist

Electrochimica Acta

Template:Electrochem-stub