Unintentionally the figure of article M. Bier and S. Dietrich, ‘Vapour pressure of ionic liquids’, Mol. Phys. 108, 211 (2010) was printed without colour. It should have appeared as follows:
Figure 1. Experimental vapour pressures p sat(T) at liquid–vapour coexistence of non-ionic liquids (NILs), room temperature ionic liquids (RTILs) and inorganic fused salts (IFSs) as a function of temperature T for the non-polar liquid benzene (C6H6, see [2]), the hydrogen bond forming liquid water (H2O, see [2]), the paradigmatic RTILs [C4mim][dca], [C2mim][NTf2] and [C8mim][NTf2] (see [7,13]), as well as fused cadmium chloride (CdCl2) and sodium chloride (NaCl) as examples of IFSs (see [14]). At low temperatures all curves terminate at the corresponding triple point temperature T 3 (see Tables 1–3), which is close to the standard melting temperature of that substance. At high temperatures the boiling curves for the RTILs terminate at the decomposition temperature T d, whereas the boiling curves of the other liquids end at their critical points (see Tables 1–3). Room temperature T 0 = 298 K and ambient pressure p 0 = 105 Pa are indicated.
![Figure 1. Experimental vapour pressures p sat(T) at liquid–vapour coexistence of non-ionic liquids (NILs), room temperature ionic liquids (RTILs) and inorganic fused salts (IFSs) as a function of temperature T for the non-polar liquid benzene (C6H6, see [2]), the hydrogen bond forming liquid water (H2O, see [2]), the paradigmatic RTILs [C4mim][dca], [C2mim][NTf2] and [C8mim][NTf2] (see [7,13]), as well as fused cadmium chloride (CdCl2) and sodium chloride (NaCl) as examples of IFSs (see [14]). At low temperatures all curves terminate at the corresponding triple point temperature T 3 (see Tables 1–3), which is close to the standard melting temperature of that substance. At high temperatures the boiling curves for the RTILs terminate at the decomposition temperature T d, whereas the boiling curves of the other liquids end at their critical points (see Tables 1–3). Room temperature T 0 = 298 K and ambient pressure p 0 = 105 Pa are indicated.](/cms/asset/791f1f13-2f57-4871-ac53-798ec1a2f860/tmph_a_481091_o_f0001g.gif)