2020
DOI: 10.1039/d0ta04290k
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High-performance, long lifetime chloride ion battery using a NiFe–Cl layered double hydroxide cathode

Abstract: NiFe–Cl layered double hydroxide (LDH) is proposed as a high-capacity and long lifetime cathode material for chloride ion batteries (CIBs), which delivers a maximum capacity of 350.6 mA h g−1 and a long lifetime of 800 cycles.

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Cited by 63 publications
(33 citation statements)
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References 42 publications
(48 reference statements)
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“…[79] Yin et al prepared NiFe-based lay-ered double hydroxide (LDH) intercalated by chloride ions as cathode materials for CIBs. [80] LDHs are a type of 2D brucitelike anionic clays. LDHs with 2D diffusion pathways had high anion-exchange capacity with reversible anion intercalation/deintercalation.…”
Section: Cathodesmentioning
confidence: 99%
“…[79] Yin et al prepared NiFe-based lay-ered double hydroxide (LDH) intercalated by chloride ions as cathode materials for CIBs. [80] LDHs are a type of 2D brucitelike anionic clays. LDHs with 2D diffusion pathways had high anion-exchange capacity with reversible anion intercalation/deintercalation.…”
Section: Cathodesmentioning
confidence: 99%
“…Along the same line, Han's group has also demonstrated high-performance CIBs using NiMn-Cl and NiFe-Cl LDHs as cathode active materials. 71,72 These recent works on LDH materials highlight the opportunity that the exploration of new chloride-hosting electrodes can help solve the most challenging and persistent problems associated with rechargeable CIBs. In particular, the negligible volume change associated with Cl − (de)intercalation into LDH materials demonstrates how new Cl − intercalation materials could mitigate the longstanding stability issues.…”
Section: Cib Electrode Materialsmentioning
confidence: 99%
“…Layered double hydroxides (LDHs) with a general formula of M 1‑ x 2+ M x 3+ (OH) 2 (A n ‑ ) x / n · y H 2 O (0.2 ≤ x ≤ 0.33) are a family of two-dimensional (2D) materials. The exchangeable interlayer anions (A n – ) are accommodated to compensate for the positive charge generated by a fraction of edge-shared octahedral coordinated divalent metal cations replaced by trivalent ones. Due to the unique topochemical transformation feature, LDHs maintain their layered structure during redox reactions of metal elements in their host layers. Another characteristic of LDH is that the interlaminar anions can be inserted and de-inserted reversibly with an extremely low diffusion barrier. Therefore, owing to these features, the LDHs can be considered as potential electrodes for rechargeable fluoride-ion batteries.…”
Section: Introductionmentioning
confidence: 99%