Stoichiometric dicalcium silicate, Ca2SiO4, displays a well-known polymorphism with temperature. When
this phase is doped by a range of elements, belite, one of the main phases of cements, is generated. Here,
we thoroughly study the aluminum doping of dicalcium silicate. This type of study is important for
cement characterization and also from a basic point of view. Ca2Si1−2xAl2xO4−x□x (x = 0, 0.010, 0.014,
0.03) has been prepared and studied by X-ray powder diffraction and the Rietveld method. The limiting
composition has been established as Ca2Si0.972Al0.028O3.986□0.014. The 27Al MAS NMR band located close
to ∼−70 ppm is ascribed to tetrahedral environments, in agreement with the proposed aliovalent Si/Al
atomic substitution mechanism. Thermal analysis measurements under a wet atmosphere indirectly
confirm the increase of oxygen vacancies as the amount of incorporated protons increases with the
aluminium content. A thorough electrical characterization has been carried out including overall conductivity
measurements under wet and dry atmospheres and conductivity as a function of the oxygen
partial pressure. The samples show oxide anion conductivity with a small p-type electronic contribution
under oxidizing conditions. These compounds display a very important proton contribution to the overall
conductivities under humidified atmospheres.