In order to highlight the most appropriate materials for applications in electrochemical devices, the analysis is devoted to the establishment of correlations between compositional and structural characteristics and their transport, thermal and stability properties. The Recent Activity page allows you to view changes made in your Branch account within the last 90 days and provides the following benefits: Accountability. Recent advances in the field of solid oxide proton-conducting materials that belong to the class of perovskite-based materials (such as doped BaCeO 3, BaZrO 3, BaCeO 3–BaZrO 3, SrCeO 3, and LaScO 3) and to other classes of materials (such as doped Ba 2In 2O 5, CeO 2, and LaNbO 4) are presented and analyzed in this review. Data helps make Google services more useful for you. Click on the Event Source drop-down menu and scroll down until you see Power-troubleshooter. Use the Showing and Change course to filter the activities. On the right panel, click Filter Current Log. Under the Assignments tab, click on the Recent Activity tab. In the pop-up window, double-click Windows Logs in the left panel. This opens the possibility of using proton-conducting materials as electrolytes for a wide range of intermediate- and high-temperature solid oxide electrochemical devices. Type Event Viewer in the search box of Windows and choose the best-matched one. This is in relation to when you mentioned that. This issue only occurs if your account doesn’t have any sign-in activity or in your case, there may be a latency when it comes to the successful logins reflecting on your account. Besides being of great fundamental interest, such oxide systems possess practical significance because they can achieve high protonic conductivity levels. You can see details such as what actions were performed and when, who made any changes, and for which Username the changes were made. Hi Joe, We’ve seen that the recent activities aren’t showing on your view activity on your My Account > Security. High-temperature proton-conducting materials constitute a unique class of oxide materials, which are able to exhibit protonic conductivity under hydrogen-containing atmospheres.
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