Correction: Author Correction: Dynamics enhanced by HCl doping triggers 60% Pauling entropy release at the ice XII–XIV transition

Nature Communications 6: Article number: 7349 (2015); Published online 16 June 2015; Updated 20 June 2018 We became aware of a mistake related to the integration of peaks observed in our calorimetry experiments. In particular, the peak area is proportional to the heating rate. In our data analysis this proportionality factor was accidentally considered twice, namely once by the Pyris software controlling our calorimeter (Perkin Elmer, DSC8000) and once by ourselves.

The first sentence of the last paragraph of the Introduction originally read ''This work shows by means of calorimetry that HCl doping and suitable sample preparation allows one to achieve a transition from completely disordered ice XII to fully ordered ice XIV.'' In the corrected version, ''fully'' is replaced by ''60%''.
The last sentence of the last paragraph of the Introduction originally read ''The proton-ordering process is shown to be composed of a fast component, yielding B30% of the Pauling entropy, and a slow component achieving full order.'' In the corrected version, ''30%'' is replaced by ''20%'', and ''full'' is replaced by ''60%''.
The fifth sentence of the ''Calorimetric entropy determination'' section of the Results originally read ''These experiments are carried out at ambient pressure on heating and they probe the XIV-XII transition, demonstrating that ice XIV can exhibit complete proton order under suitable high-pressure preparation conditions.'' In the corrected version, ''complete'' is replaced by ''60%''.
The last sentence of the first paragraph of the ''Calorimetric entropy determination'' section of the Results originally read ''Thus, the results reported here represent the first example in which the full Pauling entropy could be recovered, demonstrating a transition from fully disordered ice XII to fully ordered ice XIV.'' In the corrected version, this sentence has been removed. The first sentence of the second paragraph of the ''Calorimetric entropy determination'' section of the Results originally read ''For HF doping, only a very weak endotherm can be seen at B110-130 K in Fig. 1a, corresponding to B10% of the Pauling entropy'' In the corrected version, ''10%'' is replaced by ''6%''.
The third and fourth sentence of the second paragraph of the ''Calorimetric entropy determination'' section of the Results originally read ''We emphasize that complete proton ordering can be achieved only under high-pressure conditions, but not at ambient pressure. Even on slow cooling (for example, 5 K min À 1 ) in the calorimeter, we regained only B20% of the Pauling entropy for the XII-XIV transition (not shown).'' In the corrected version, ''complete'' is replaced by ''60%'', and ''20%'' is replaced by ''12%''.
The sixth sentence of the second paragraph of the ''Calorimetric entropy determination'' section of the Results originally read ''Even the fastest high-pressure cooling rates, q430 K min À 1 , employed in our study resulted in a gain of B25%-35% of the Pauling entropy, see Fig. 1b'' In the corrected version, ''25%-35%'' is replaced by ''20%''.
The eighth sentence of the second paragraph of the ''Calorimetric entropy determination'' section of the Results originally read ''It thus seems that the process of proton ordering in ice XII involves two stages: first, a rapid stage proceeding easily both at ambient and at high-pressure conditions, which yields about 25%-35% of the Pauling entropy, and a second much slower stage that takes place only at high pressures and yields about 65%-75% of the Pauling entropy.'' In the corrected version, ''25%-35%'' is replaced by ''20%'', and ''65%-75%'' is replaced by ''40%''.
The second sentence of the second paragraph of the ''Characterization of ice XII/XIV samples by powder X-ray diffraction'' section of the Methods originally read ''We here compare HCl-doped ice XIV samples obtained by slow and fast cooling at high-pressure conditions: The splitting is resolved well for the slowly cooled, 100% ordered sample, but not for the 30% ordered sample (see Fig. 5).'' In the corrected version, ''100%'' is replaced by ''60%'', and ''30%'' is replaced by ''20%''.
The last sentence of the second paragraph of the ''Characterization of ice XII/XIV samples by powder X-ray diffraction'' section of the Methods originally read ''The fast component, resulting in about 30% ordering, by contrast, may take place both at 1 bar and at highpressure conditions, because it is not afflicted with orthorhombic stress.'' In the corrected version, ''30%'' is replaced by ''20%''.
The third sentence of the third paragraph of the 'Discussion' section originally read ''In combination with slow cooling at high pressures, this allows us to observe a transition from fully proton ordered to fully proton disordered ice and thus to recover the complete Pauling entropy.'' In the corrected version, ''this allows us to observe a transition from fully proton ordered to fully proton disordered ice and thus to recover the complete Pauling entropy'' is replaced by ''this allows us to recover 60% of the Pauling entropy.'' The second sentence of the caption to Fig. 5 originally read ''In case of HCl doping, two diffractograms are shown, belonging to fully ordered ice XIV and to 30% ordered ice XIV.'' In the corrected version, ''fully'' is replaced by ''60%'', and ''30%'' is replaced by ''20%''.
The sixth sentence of the caption to Fig. 5 originally read ''Note that the splitting has not yet developed in 30% ordered ice XIV samples.'' In the corrected version, ''30%'' is replaced by ''20%''.
In the original version of Fig. 1b, the y-axis scale was wrong by a factor of 0.6, except for the points at q ¼ 33 K min -1 . The correct version of Fig. 1b  replaces the previous incorrect one, which appears below as Figure 2: In the original version of Fig. 5, the label on the fourth curve from the top was incorrectly given as ''HCl doped (2 K min -1 , 100%)'' instead of the correct ''HCl doped (2 K min -1 , 60%)''. Similarly, the label on the fifth curve was incorrectly given as ''HCl doped (34 K min -1 , 30%)'', instead of the correct ''HCl doped (34 K min -1 , 20%)''.
The correct version of Fig. 5 appears below as Figure 3: These errors have now been corrected in both the PDF and the HTML versions of the Article. Except for the entropies deduced from the calorigrams all statements reported remain as they stand.