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The unique architecture provides higher reaction surface area resulting in higher capacity.
Having multiple link options per node results in higher capacity usage efficiency, at the expense of reduced spatial reuse.
These effects are reflected in the charge-discharge tests, resulting in higher capacity of the SBM cell.
Small scale polymerisation and subsequent scale up in higher capacity reactors showed a strong co-catalytic effect of phosphates.
Better crystallized and cation ordered layered material has higher initial capacity while smaller and uniform PPS results in higher capacity retention rate.
The transmission over multi-input multi-output (MIMO) channels offers significant increases in data throughput and link range without additional bandwidth or increased transmit power and results in higher capacity [1,2].
Similar(49)
This effect was reflected in charge-discharge tests on a cell with the secondary ball-milled lithium silicide, resulting in higher capacities.
The high dispersion and homogeneity of the cathode layer result in high capacity Li/S batteries.
The results suggest nanostructured electrodes are highly promising for applications in high capacity batteries.
The excellent electrochemical behaviors indicate that CNTs/C/NiMoO4 composites have great potential for application in high capacity energy storage devices.
The large lithium insertion capacity of these materials makes them attractive for use as cathodes in high capacity lithium batteries.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com