Carboxylic bacterial cellulose fiber-based hydrogel electrolyte with imidazole-type ionic liquid for dendrite-free zinc metal batteries

Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety, low cost, and high theoretical capacity. However, the growth of dendrites and the occurrence of side reactions hinder the development of zinc metal batteries. Despite previou...

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Vydané v:	Materials Reports: Energy Ročník 4; číslo 2; s. 100272
Hlavní autori:	Zhang, Tianyun, Shi, Xiaohong, Li, Yu, Sangaraju, Sambasivam, Wang, Fujuan, Yang, Liang, Ran, Fen
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier B.V 01.05.2024 KeAi Communications Co. Ltd
Predmet:	Bacterial cellulose fiber Carboxylic group Gel electrolyte Ionic liquids Zn metal batteries Ionic liquids Bacterial cellulose fiber Gel electrolyte Zn metal batteries Carboxylic group
ISSN:	2666-9358, 2666-9358
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Abstract	Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety, low cost, and high theoretical capacity. However, the growth of dendrites and the occurrence of side reactions hinder the development of zinc metal batteries. Despite previous attempts to design advanced hydrogel electrolytes, achieving high mechanical performance and ionic conductivity of hydrogel electrolytes has remained challenging. In this work, a hydrogel electrolyte with an ionic crosslinked network is prepared by carboxylic bacterial cellulose fiber and imidazole-type ionic liquid, following by a covalent network of polyacrylamide. The hydrogel electrolyte possesses a superior ionic conductivity of 43.76 mS cm−1, leading to a Zn2+ migration number of 0.45, and high mechanical performance with an elastic modulus of 3.48 GPa and an elongation at breaking of 38.36%. More importantly, under the anion-coordination effect of the carboxyl group in bacterial cellulose and [BF4]− in imidazole-type ionic liquid, the solvation sheath of hydrated Zn2+ ions and the nucleation overpotential of Zn plating are regulated. The results of cycled testing show that the growth of zinc dendrites is effectively inhibited and the generation of irreversible by-products is reduced. With the carboxylic bacterial cellulose-based hydrogel electrolyte, the Zn\|\|Zn symmetric batteries offer good cyclability as well as Zn\|\|Ti batteries. [Display omitted]
AbstractList	Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety, low cost, and high theoretical capacity. However, the growth of dendrites and the occurrence of side reactions hinder the development of zinc metal batteries. Despite previous attempts to design advanced hydrogel electrolytes, achieving high mechanical performance and ionic conductivity of hydrogel electrolytes has remained challenging. In this work, a hydrogel electrolyte with an ionic crosslinked network is prepared by carboxylic bacterial cellulose fiber and imidazole-type ionic liquid, following by a covalent network of polyacrylamide. The hydrogel electrolyte possesses a superior ionic conductivity of 43.76 mS cm−1, leading to a Zn2+ migration number of 0.45, and high mechanical performance with an elastic modulus of 3.48 GPa and an elongation at breaking of 38.36%. More importantly, under the anion-coordination effect of the carboxyl group in bacterial cellulose and [BF4]− in imidazole-type ionic liquid, the solvation sheath of hydrated Zn2+ ions and the nucleation overpotential of Zn plating are regulated. The results of cycled testing show that the growth of zinc dendrites is effectively inhibited and the generation of irreversible by-products is reduced. With the carboxylic bacterial cellulose-based hydrogel electrolyte, the Zn\|\|Zn symmetric batteries offer good cyclability as well as Zn\|\|Ti batteries. Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety, low cost, and high theoretical capacity. However, the growth of dendrites and the occurrence of side reactions hinder the development of zinc metal batteries. Despite previous attempts to design advanced hydrogel electrolytes, achieving high mechanical performance and ionic conductivity of hydrogel electrolytes has remained challenging. In this work, a hydrogel electrolyte with an ionic crosslinked network is prepared by carboxylic bacterial cellulose fiber and imidazole-type ionic liquid, following by a covalent network of polyacrylamide. The hydrogel electrolyte possesses a superior ionic conductivity of 43.76 mS cm−1, leading to a Zn2+ migration number of 0.45, and high mechanical performance with an elastic modulus of 3.48 GPa and an elongation at breaking of 38.36%. More importantly, under the anion-coordination effect of the carboxyl group in bacterial cellulose and [BF4]− in imidazole-type ionic liquid, the solvation sheath of hydrated Zn2+ ions and the nucleation overpotential of Zn plating are regulated. The results of cycled testing show that the growth of zinc dendrites is effectively inhibited and the generation of irreversible by-products is reduced. With the carboxylic bacterial cellulose-based hydrogel electrolyte, the Zn\|\|Zn symmetric batteries offer good cyclability as well as Zn\|\|Ti batteries. [Display omitted]
ArticleNumber	100272
Author	Zhang, Tianyun Li, Yu Wang, Fujuan Ran, Fen Yang, Liang Shi, Xiaohong Sangaraju, Sambasivam
Author_xml	– sequence: 1 givenname: Tianyun surname: Zhang fullname: Zhang, Tianyun email: zhangtianyunt@163.com organization: School of Mechanical and Electronical Engineering, Lanzhou University of Technology, Lanzhou, 730050, PR China – sequence: 2 givenname: Xiaohong surname: Shi fullname: Shi, Xiaohong organization: School of Mechanical and Electronical Engineering, Lanzhou University of Technology, Lanzhou, 730050, PR China – sequence: 3 givenname: Yu surname: Li fullname: Li, Yu organization: School of Mechanical and Electronical Engineering, Lanzhou University of Technology, Lanzhou, 730050, PR China – sequence: 4 givenname: Sambasivam surname: Sangaraju fullname: Sangaraju, Sambasivam organization: National Water and Energy Center, United Arab Emirates University, Al Ain, 15551, United Arab Emirates – sequence: 5 givenname: Fujuan surname: Wang fullname: Wang, Fujuan organization: State Key Laboratory of Advanced Processing and Recycling of Non-ferrous Metals, School of Materials Science and Engineering, Lanzhou University of Technology, Lanzhou, 730500, PR China – sequence: 6 givenname: Liang surname: Yang fullname: Yang, Liang organization: School of Mechanical and Electronical Engineering, Lanzhou University of Technology, Lanzhou, 730050, PR China – sequence: 7 givenname: Fen orcidid: 0000-0002-7383-1265 surname: Ran fullname: Ran, Fen email: ranfen@163.com organization: State Key Laboratory of Advanced Processing and Recycling of Non-ferrous Metals, School of Materials Science and Engineering, Lanzhou University of Technology, Lanzhou, 730500, PR China
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Keywords	Ionic liquids Bacterial cellulose fiber Gel electrolyte Zn metal batteries Carboxylic group
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Snippet	Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety, low cost, and high theoretical...
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SubjectTerms	Bacterial cellulose fiber Carboxylic group Gel electrolyte Ionic liquids Zn metal batteries
Title	Carboxylic bacterial cellulose fiber-based hydrogel electrolyte with imidazole-type ionic liquid for dendrite-free zinc metal batteries
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