The benefits of incorporating lead-free ferroelectric materials in high energy density Li- and Li-free batteries

Demand for energy storage is increasing day by day and developing a pollution free environment necessitates new battery technologies. However, the existing energy storage technologies like lithium (Li)-ion batteries cannot fulfil the future needs alone. In this regard, Li-free batteries such as sodi...

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Bibliographic Details
Published inJournal of energy storage Vol. 97; p. 112846
Main Authors Jayakrishnan, Ampattu R., Isfahani, Vahideh B., Nair, Surya Kiran P., Sekhar, Koppole C., Marques, Luís S., Pereira, Mario, MacManus-Driscoll, Judith L., Silva, José P.B.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2024
Subjects
Energy storage
Ferroelectrics
Li and Li-free batteries
PP
HFIP
NCNF
NVP
BFO
PZT
XRD
LIBs
NZSP
TFA
RFE
BFFO
HFP
PFM
LFP
ASSLBs
DOL
PBMA
SWCNTs
MIBs
PVDF
EIS
HRTEM
P-E loop
SEI
LISBs
MWCNTs
HEVs
PCM
NCO
BTO
FE
Energy storage
RT
C
NIBs
GNP
ZIBs
KNN
SPEs
CSE
t-KTN
AAEM
FTIR
LLTO
XPS
DMF
DME
PVTF
GF
BGFNO
CE
PHEVs
EVs
GCD
P(VDF–TrFE–CTFE)
KIBs
SSM
NMP
PA
BP@PPFL
CV
APC
EC/DEC
ALD
CPE
LiTFSI
PVA
PEO
Ferroelectrics
PAN
Li and Li-free batteries
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Summary:Demand for energy storage is increasing day by day and developing a pollution free environment necessitates new battery technologies. However, the existing energy storage technologies like lithium (Li)-ion batteries cannot fulfil the future needs alone. In this regard, Li-free batteries such as sodium (Na), potassium (K), zinc (Zn) and magnesium (Mg) ion batteries have attracted significant attention due to their unique properties, large abundance in the earth's crust, and economic feasibility. Both Li-based and Li-free batteries suffer from drawbacks such as low ionic conductivity, irregular nucleation, poor interfacial stability, volume expansion, etc. Recently, the incorporation of ferroelectrics in batteries has emerged as a viable solution to mitigate some of the problems. However, in most cases environmentally unfriendly conventional lead-based ferroelectrics have been studied. This review investigates the role of emerging lead-free ferroelectrics incorporated in Li- and Li-free batteries. [Display omitted] •Our review highlights the role of Pb-free ferroelectric materials in Li- and Li-free batteries.•Benefits of incorporating ferroelectrics in the separator, anode or cathode/electrolyte interface are discussed.•The mechanism of ferroelectric polarization in reducing the dendrite formation on electrodes is highlighted.•The inclusion of ferroelectrics enhances discharge capacity, Coulombic efficiency and discharge capacity retention.
ISSN:2352-152X
DOI:10.1016/j.est.2024.112846