The interface of an ionic conductor to a solid neighbouring phase is c
onsidered. First the equilibrium picture is presented. The interface i
s divided into core and space charge region. It is assumed that the ma
terials parameters, such as defect standard potentials and defect mobi
lities, behave as step functions. The interaction with an insulator or
a parent metal as second phases is briefly discussed. On the basis of
the equilibrium picture the interfacial impedance is modelled in a no
vel manner. The interfacial resistance is derived analytically and an
exact method is proposed to calculate the space charge capacitance. In
the experimental part a new impedance technique is presented: It is e
specially sensitive to interfacial responses and allows for scanning o
f the electrical properties from the boundary to the bulk by changing
the frequency.