Entropy‐Regulated Cathode with Low Strain and Constraint Phase‐Change Toward Ultralong‐Life Aqueous Al‐Ion Batteries

Entropy‐Regulated Cathode with Low Strain and Constraint Phase‐Change Toward Ultralong‐Life Aqueous Al‐Ion Batteries

During multivalent ions insertion processes, intense electrostatic interaction between charge carriers and host makes the high‐performance reversible Al3+ storage remains an elusive target. On account of the strong electrostatic repulsion and poor robustness, Prussian Blue analogues (PBAs) suffer se...

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Veröffentlicht in:Angewandte Chemie International Edition 2024-03, Vol.63 (12), p.e202316925-n/a
Hauptverfasser: Liu, Yan‐Ning, Yang, Jia‐Lin, Gu, Zhen‐Yi, Zhang, Xin‐Yi, Liu, Yue, Su, Meng‐Yuan, Zhang, Xue‐Li, Zatovsky, Igor V., Li, Kai, Cao, Jun‐Ming, Wu, Xing‐Long
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Schlagworte:
Aluminum
Anodes
aqueous Al-ion batteries
Batteries
Cathodes
Current carriers
Electrochemical analysis
Electrochemistry
Electrode materials
Electrostatic properties
Entropy
entropy regulation
Heavy metals
Insertion
Ions
Lattice parameters
Life span
low-strain
Phase change
Phase transitions
Pigments
prussian blue analogues
Storage
ultralong lifespan
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container_issue 12
container_start_page e202316925
container_title Angewandte Chemie International Edition
container_volume 63
creator Liu, Yan‐Ning
Yang, Jia‐Lin
Gu, Zhen‐Yi
Zhang, Xin‐Yi
Liu, Yue
Su, Meng‐Yuan
Zhang, Xue‐Li
Zatovsky, Igor V.
Li, Kai
Cao, Jun‐Ming
Wu, Xing‐Long
description During multivalent ions insertion processes, intense electrostatic interaction between charge carriers and host makes the high‐performance reversible Al3+ storage remains an elusive target. On account of the strong electrostatic repulsion and poor robustness, Prussian Blue analogues (PBAs) suffer severely from the inevitable and large strain and phase change during reversible Al3+ insertion. Herein, we demonstrate an entropy‐driven strategy to realize ultralong life aqueous Al‐ion batteries (AIBs) based on medium entropy PBAs (ME‐PBAs) host. By multiple redox active centers introduction, the intrinsic poor conductivity can be enhanced simultaneously, resulting in outstanding capabilities of electrochemical Al3+ storage. Meanwhile, the co‐occupation at metal sites in PBA frameworks can also increase the M−N bond intensity, which is beneficial for constraining the phase change during consecutive Al3+ reversible insertion, to realize an extended lifespan over 10,000 cycles. Based on the calculation at different operation states, the fluctuation of ME‐PBA lattice parameters is only 1.2 %. Assembled with MoO3 anodes, the full cells can also deliver outstanding electrochemical properties. The findings highlight that, the entropy regulation strategy could uncover the isochronous constraint on both strain and phase transition for long‐term reversible Al3+ storage, providing a promising design for advanced electrode materials for aqueous multivalent ions batteries. The successful implementation of an entropy‐regulation approach is proposed by using PBAs as cathode for aqueous AIBs, resulting in excellent electrochemical performance. As‐designed medium‐entropy cathode could deliver a high capacity for reversible Al3+ storage, which is attributed to the activation of numerous redox centres and low strain, further enabling ultra‐high rates of ion storage and an exceptionally long lifespan.
doi_str_mv 10.1002/anie.202316925
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On account of the strong electrostatic repulsion and poor robustness, Prussian Blue analogues (PBAs) suffer severely from the inevitable and large strain and phase change during reversible Al3+ insertion. Herein, we demonstrate an entropy‐driven strategy to realize ultralong life aqueous Al‐ion batteries (AIBs) based on medium entropy PBAs (ME‐PBAs) host. By multiple redox active centers introduction, the intrinsic poor conductivity can be enhanced simultaneously, resulting in outstanding capabilities of electrochemical Al3+ storage. Meanwhile, the co‐occupation at metal sites in PBA frameworks can also increase the M−N bond intensity, which is beneficial for constraining the phase change during consecutive Al3+ reversible insertion, to realize an extended lifespan over 10,000 cycles. Based on the calculation at different operation states, the fluctuation of ME‐PBA lattice parameters is only 1.2 %. Assembled with MoO3 anodes, the full cells can also deliver outstanding electrochemical properties. The findings highlight that, the entropy regulation strategy could uncover the isochronous constraint on both strain and phase transition for long‐term reversible Al3+ storage, providing a promising design for advanced electrode materials for aqueous multivalent ions batteries. The successful implementation of an entropy‐regulation approach is proposed by using PBAs as cathode for aqueous AIBs, resulting in excellent electrochemical performance. As‐designed medium‐entropy cathode could deliver a high capacity for reversible Al3+ storage, which is attributed to the activation of numerous redox centres and low strain, further enabling ultra‐high rates of ion storage and an exceptionally long lifespan.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>38284505</pmid><doi>10.1002/anie.202316925</doi><tpages>10</tpages><edition>International ed. in English</edition><orcidid>https://orcid.org/0000-0001-9347-160X</orcidid><orcidid>https://orcid.org/0000-0003-1069-9145</orcidid></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Aluminum
Anodes
aqueous Al-ion batteries
Batteries
Cathodes
Current carriers
Electrochemical analysis
Electrochemistry
Electrode materials
Electrostatic properties
Entropy
entropy regulation
Heavy metals
Insertion
Ions
Lattice parameters
Life span
low-strain
Phase change
Phase transitions
Pigments
prussian blue analogues
Storage
ultralong lifespan
title Entropy‐Regulated Cathode with Low Strain and Constraint Phase‐Change Toward Ultralong‐Life Aqueous Al‐Ion Batteries
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