Our analysis reveals interesting trends in
the electrochemical stability of TMOs containing elements which have not traditionally been explored for photocatalysts.
Abstract: Widespread use of artificial photosynthesis hinges upon development of photocatalysts and light absorbers with excellent
electrochemical stability in aqueous solution.
Several promising earth - abundant low band - gap TMO compounds with desirable band edge energies and
electrochemical stability are identified by our computational efforts and then synergistically evaluated using high - throughput synthesis and photoelectrochemical screening techniques by our experimental collaborators at Caltech.
The drawback, according to Wang, is that these nanostructures can be fragile, difficult to make reproducibly when scaled - up and poor in
electrochemical stability, limiting their applicability.
Not exact matches
Moreover, the resulting hierarchically assembled nanowires (C - GeNWs) show enhanced chemical and thermal
stability, as well as outstanding
electrochemical properties.