Extended Data Fig. 3: Crystal truncation rods (CTR) and corresponding CTR fits of Pt(100) close to and in the region of oxide formation. | Nature Catalysis

Extended Data Fig. 3: Crystal truncation rods (CTR) and corresponding CTR fits of Pt(100) close to and in the region of oxide formation.

From: Structure dependency of the atomic-scale mechanisms of platinum electro-oxidation and dissolution

Extended Data Fig. 3: Crystal truncation rods (CTR) and corresponding CTR fits of Pt(100) close to and in the region of oxide formation.The alternative text for this image may have been generated using AI.

CTRs of Pt(100) at a potential slightly negative (0.95 V) and three potentials positive (1.07, 1.12 and 1.17 V) of the Oads peak in the cyclic voltammogram (Fig. 1b, Extended Data Fig. 1). Solid lines are the corresponding CTR fits. The CTRs for the different potentials are offset to each other by a factor 10 and shown together with the CTR fits of the smooth surface at 0.95 V (grey lines). Details on the CTR fits are given in the Supplementary Note 3 and the corresponding structural parameters are given in Supplementary Table 4.

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