Peng Li 1 , Hun Kim 1 , Kwang-Ho Kim 2 , Jaekook Kim 3 , Hun-Gi Jung 4 , Yang-Kook Sun 1 Show Affiliations »
Abstract
The growing demand for green energy has fueled the exploration of sustainable and eco-friendly energy storage systems. To date, the primary focus has been solely on the enhancement of lithium-ion battery (LIB) technologies. Recently, the increasing demand and uneven distribution of lithium resources have prompted extensive attention toward the development of other advanced battery systems. As a promising alternative to LIBs, potassium-ion batteries (KIBs) have attracted considerable interest over the past years owing to their resource abundance, low cost, and high working voltage. Capitalizing on the significant research and technological advancements of LIBs, KIBs have undergone rapid development, especially the anode component, and diverse synthesis techniques, potassiation chemistry, and energy storage applications have been systematically investigated and proposed. In this review, the necessity of exploring superior anode materials is highlighted, and representative KIB anodes as well as various structural construction approaches are summarized. Furthermore, critical issues, challenges, and perspectives of KIB anodes are meticulously organized and presented. With a strengthened understanding of the associated potassiation chemistry, the composition and microstructural modification of KIB anodes could be significantly improved. This journal is © The Royal Society of Chemistry.
The growin g deman d for green en ergy has fueled the exploran class="Chemical">ti o
n of sustai
n able anpan>d e
n class="Chemical">pan class="Chemical">co-friendly energy storapan>n class="Chemical">ge systems. To date, the primar y focu s has been solely on the enhancement of lithium -ion battery (LIB) technologies. Recently, the increasi ng demand and uneven distribution of lithium resources have prompted extensi ve attention towar d the development of other advanced battery systems. As a promisi ng al ternative to LIBs , potassium-ion batteries (KIBs) have attracted co nsi derable interest over the past year s owing to their resource abundance, low cos t, and high working voltage . Capital izing on the si gnificant rese ar ch and technological advancements of LIBs , KIBs have undergo ne rapid development, especial ly the anode co mponent, and diverse synthesi s techniques, potassi ation chemistry, and energy storage applications have been systematical ly investigated and propose d. In this review, the necessi ty of exploring superior anode material s is highlighted, and represe ntative KIB anodes as well as var ious structural co nstruction approaches ar e summar ized. Furthermore, critical issues, chal lenge s, and perspectives of KIB anodes ar e meticu lously organized and prese nted. With a strengthened understanding of the associated potassi ation chemistry, the co mposi tion and microstructural modification of KIB anodes co uld be si gnificantly improved. This journal is © The Royal Society of Chemistry.
Entities: Chemical
Disease
Species
Year: 2021
PMID: 34168818 PMCID: PMC8188519 DOI: 10.1039/d0sc06894b
Source DB: PubMed Journal: Chem Sci ISSN: 2041-6520 Impact factor: 9.825