What is a bipolar electrode in a rechargeable battery?

There is a distinctive stack configuration of rechargeable batteries, referred to as bipolar electrodes (BEs), that ultimately simplifies the components of rechargeable batteries. A schematic illustration of BEs is displayed in Figure 1c. The cathode and anode slurries are separately coated on both sides of the substrate.

What is the achievable energy density of bipolar batteries?

The achievable energy density of bipolar batteries may be only 80% of theoretical values. To this end, the battery management becomes more critical for diagnosing cell voltage and maintaining the health state of bipolar batteries.

Can bipolar nibs reduce the species of battery components?

In contrast, if the initial design of LIBs using BEs can reduce the species of battery components, the efficient separation of spent LIBs and the direct regeneration/reuse of electrode materials are possible, which has been exemplified by the bipolar NIBs.

What is volumetric/gravimetric energy density of bipolar batteries?

Consequently, volumetric/gravimetric energy density of bipolar batteries is equal to battery energy divided by battery volume/energy, respectively. As expected, the rechargeable batteries using BEs have also a significant increase in volumetric/gravimetric energy density.

How are bipolar LSBs assembled?

Bipolar LSBs are also assembled by two types of BEs with in series configuration (face-to-face) and in plane configuration (side-by-side). The latter can be described as semi-polar structure, where positive and negative electrodes are placed on the edge of the shared current collector, as shown in Figure 5a.

Can bipolar batteries be used in alkaline electrolyte?

Recently, Ahmed et al. developed high-current bipolar Zn batteries where Zn is directly used as active materials and bipolar substrate. The discharge current capability of 500 mA cm −2 with three cells was achieved. These attempts have demonstrated the flexibility of metal batteries using BEs in alkaline electrolyte.