Abstract
Electrification is progressing significantly within the present and future vehicle sectors such as large commercial vehicles (e.g., trucks and buses), high‐altitude long endurance (HALE), high‐altitude pseudosatellites (HAPS), and electric vertical take‐off and landing (eVTOL). The battery systems’ performance requirements differ across these applications in terms of power, cycle life, system cost, etc. However, the need for high gravimetric energy density, 400 Wh kg−1 and beyond, is common across them all, as it enables vehicles to achieve extended range, a longer mission duration, lighter weight, or increased payload. The system‐level requirements of these emerging applications are broken down into the component‐level developments required to integrate Li–S technology as the power system of choice. To adapt batteries’ properties, such as energy and power density, to the respective application, the academic research community has a key role to play in component‐level development. However, materials and component research must be conducted within the context of a viable Li–S cell system. Herein, the key performance benefits, limitations, modeling, and recent progress of the Li–S battery technology and its adaption toward real‐world application are discussed.
Highlights
With the ever-increasing need for electrification across many application sectors, the development of new energy storage technologies is of increasing relevance and critical importance
Current and Future Applications for Li-S Battery technology Among the future applications requiring high specific energy battery systems, a few examples are presented in Figure 5 and Table 1, where Li-S technology has the potential to play a significant role in enabling these applications to be successful.[14]
Outlook and Conclusion Looking forward to the evolution of electric powertrains, new generations of battery technology are currently being developed to meet the requirements of emerging applications in terms of cycle life, safety, power, and scalability
Summary
With the ever-increasing need for electrification across many application sectors, the development of new energy storage technologies is of increasing relevance and critical importance. Advantages Li-ion battery systems are the current technology of choice for many applications, the achievable specific energy reaches a maximum at around 240-300 Wh kg-1 at the cell level.
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