Molecular Insights into the Stability of Titanium in Electrolytes Containing Chlorine and Fluorine Ions

“…Consequently, the surface Ti atoms began to detach from the bulk material (Figure 13c), eventually culminating in the formation of a stable oxide film that exhibited an anticorrosive effect on the surface. The constituents of the oxide film on the Ti surface primarily comprised TiO 2 , Ti 2 O 3 , and TiO [37], among which amorphous TiO 2 predominantly conferred protective properties to the surface [21]. According to the theory of amorphous structure, the potential configurations of the surface atomic structure of amorphous TiO 2 are myriad.…”

“…Four adsorption sites of O atoms are considered in Figure 1b. The average adsorption energy per O atom on the Ti(0001) surface, denoted as E ads , is calculated as follows [26]: GGA-PBE: a = b = 2.92, c = 4.63 [1] c/a = 1.580 [20] a = b = 2.94, c = 4.63 [21] c/a = 1.586 [20] LDA: c/a = 1.580 [22] c/a = 1.594 [23] c/a = 1.588 [22] Work function (eV) 4.431 4.6 ± 0.2 [24] GGA-PBE: 4.48 [25], 4.42 [20] 4.45 [23] LDA: 4.64 [22], 4.75 [23] 3. Results and Discussion 3.1.…”

Influence of Ti Vacancy Defects on the Dissolution of O-Adsorbed Ti(0001) Surface: A First-Principles Study

“…Consequently, the surface Ti atoms began to detach from the bulk material (Figure 13c), eventually culminating in the formation of a stable oxide film that exhibited an anticorrosive effect on the surface. The constituents of the oxide film on the Ti surface primarily comprised TiO 2 , Ti 2 O 3 , and TiO [37], among which amorphous TiO 2 predominantly conferred protective properties to the surface [21]. According to the theory of amorphous structure, the potential configurations of the surface atomic structure of amorphous TiO 2 are myriad.…”

“…Four adsorption sites of O atoms are considered in Figure 1b. The average adsorption energy per O atom on the Ti(0001) surface, denoted as E ads , is calculated as follows [26]: GGA-PBE: a = b = 2.92, c = 4.63 [1] c/a = 1.580 [20] a = b = 2.94, c = 4.63 [21] c/a = 1.586 [20] LDA: c/a = 1.580 [22] c/a = 1.594 [23] c/a = 1.588 [22] Work function (eV) 4.431 4.6 ± 0.2 [24] GGA-PBE: 4.48 [25], 4.42 [20] 4.45 [23] LDA: 4.64 [22], 4.75 [23] 3. Results and Discussion 3.1.…”

Influence of Ti Vacancy Defects on the Dissolution of O-Adsorbed Ti(0001) Surface: A First-Principles Study

Quantitative study on the metal dissolution reaction with multivalent cations by a modified SECM mode: Pure Ti as a case