Preparation of anode by MOF pyrolysis enabled long-life rechargeable zinc nickel batteries

Water-induced parasitic reaction and zinc dendrite growth caused by uneven electric field distribution on the surface of the zinc anode are the most controversial problems in the practical application of zinc-nickel rechargeable batteries in large-scale energy storage. Herein, Bi2O3/In2O3 doped ZnO@...

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Published inJournal of alloys and compounds Vol. 949; p. 169870
Main Authors Liang, Hanhao, Su, Qingsong, Xu, Jiancheng, Yang, Zhanhong, Li, Shandong, Wang, Jianglin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.07.2023
Subjects
Long-term cyclic stability
MOF pyrolysis
Zinc anode
Zinc-nickel rechargeable batteries
Long-term cyclic stability
Zinc anode
MOF pyrolysis
Zinc-nickel rechargeable batteries
Online AccessGet full text
ISSN0925-8388
1873-4669
DOI10.1016/j.jallcom.2023.169870

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Abstract Water-induced parasitic reaction and zinc dendrite growth caused by uneven electric field distribution on the surface of the zinc anode are the most controversial problems in the practical application of zinc-nickel rechargeable batteries in large-scale energy storage. Herein, Bi2O3/In2O3 doped ZnO@C synthesized by MOF pyrolysis with good cycle stability. The ability to inhibit hydrogen evolution and achieve uniform deposition of zinc is characterized by CV, Tafel, and scanning electron microscopy (SEM). Benefiting from the high hydrogen evolution overpotential and high electrical conductivity, Bi2O3 doped ZnO@C (BCZ) and In2O3 doped ZnO@C (ICZ) electrodes deliver high capacity of 640 mA h g−1 and 580 mA h g−1 at 10 C after 1200 and 3400 cycles, respectively, and reveals long-term cyclic stability with capacity retention over 90%. This work provides new ideas for the anode synthesis of aqueous rechargeable zinc metal batteries and other batteries. •Bi2O3/In2O3 doped ZnO@C are synthesized in one step by a simple MOF-5 pyrolysis route.•Bi2O3/In2O3 doped ZnO@C anode achieves ultra-long cycle stability at a high rate.•The dual regulation mechanism of MOF and Bi2O3/In2O3 inhibit the growth of dendrites and the occurrence of HER.
AbstractList Water-induced parasitic reaction and zinc dendrite growth caused by uneven electric field distribution on the surface of the zinc anode are the most controversial problems in the practical application of zinc-nickel rechargeable batteries in large-scale energy storage. Herein, Bi2O3/In2O3 doped ZnO@C synthesized by MOF pyrolysis with good cycle stability. The ability to inhibit hydrogen evolution and achieve uniform deposition of zinc is characterized by CV, Tafel, and scanning electron microscopy (SEM). Benefiting from the high hydrogen evolution overpotential and high electrical conductivity, Bi2O3 doped ZnO@C (BCZ) and In2O3 doped ZnO@C (ICZ) electrodes deliver high capacity of 640 mA h g−1 and 580 mA h g−1 at 10 C after 1200 and 3400 cycles, respectively, and reveals long-term cyclic stability with capacity retention over 90%. This work provides new ideas for the anode synthesis of aqueous rechargeable zinc metal batteries and other batteries. •Bi2O3/In2O3 doped ZnO@C are synthesized in one step by a simple MOF-5 pyrolysis route.•Bi2O3/In2O3 doped ZnO@C anode achieves ultra-long cycle stability at a high rate.•The dual regulation mechanism of MOF and Bi2O3/In2O3 inhibit the growth of dendrites and the occurrence of HER.
ArticleNumber 169870
Author Wang, Jianglin
Su, Qingsong
Li, Shandong
Xu, Jiancheng
Yang, Zhanhong
Liang, Hanhao
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crossref_primary_10_1002_cssc_202401217
crossref_primary_10_1016_j_ces_2023_119437
crossref_primary_10_3390_batteries9090440
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Snippet Water-induced parasitic reaction and zinc dendrite growth caused by uneven electric field distribution on the surface of the zinc anode are the most...
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StartPage 169870
SubjectTerms Long-term cyclic stability
MOF pyrolysis
Zinc anode
Zinc-nickel rechargeable batteries
Title Preparation of anode by MOF pyrolysis enabled long-life rechargeable zinc nickel batteries
URI https://dx.doi.org/10.1016/j.jallcom.2023.169870
Volume 949
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