| X-ray photoelectron spectroscopy XPS and energy-dispersive X-ray EDX elemental analyses indicate that the loadings of POM achieved are far higher than in conventional, noncovalent inclusion films, and covalent attachment prevents loss of POM on initial reduction cycles | This requires new types of cathode material to be developed that can store charge upon reduction |
|---|---|
| X-ray photoelectron spectroscopy XPS and energy-dispersive X-ray EDX elemental analyses indicate that the loadings of POM achieved are far higher than in conventional, noncovalent inclusion films, and covalent attachment prevents loss of POM on initial reduction cycles |
This requires new types of cathode material to be developed that can store charge upon reduction.
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