Self-template synthesis of peapod-like MnO@N-doped hollow carbon nanotubes as an advanced anode for lithium-ion batteries

The exploration of low-cost and high-performance transition metal oxides/carbon (TMOs/C)–based anodes to replace commercial graphite is still a huge challenge for the development of lithium-ion batteries (LIBs). In this work, MnO@N-doped hollow carbon nanotubes (MnO@NHCNT- v , v refers to the adding...

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Published in	Rare metals Vol. 42; no. 3; pp. 929 - 939
Main Authors	Liu, Yan-Ping, Xu, Chen-Xi, Ren, Wen-Qing, Hu, Li-Ying, Fu, Wen-Bin, Wang, Wei, Yin, Hong, He, Bin-Hong, Hou, Zhao-Hui, Chen, Liang
Format	Journal Article
Language	English
Published	Beijing Nonferrous Metals Society of China 01.03.2023 Springer Nature B.V
Subjects	Anodes Biomaterials Carbon Carbon nanotubes Chemistry and Materials Science Electric contacts Energy Lithium-ion batteries Manganese oxides Materials Engineering Materials Science Metallic Materials Nanoscale Science and Technology Original Article Physical Chemistry Polypyrroles Rechargeable batteries Synthesis Transition metal oxides Lithium storage performance Self-template strategy MnO@N-doped hollow carbon nanotubes (MnO@NHCNT) Peapod-like structure N doping
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Abstract	The exploration of low-cost and high-performance transition metal oxides/carbon (TMOs/C)–based anodes to replace commercial graphite is still a huge challenge for the development of lithium-ion batteries (LIBs). In this work, MnO@N-doped hollow carbon nanotubes (MnO@NHCNT- v , v refers to the adding volume of pyrrole) hybrids are successfully prepared by a facile self-template strategy using Mn 3 O 4 nanotubes (Mn 3 O 4 NT) and pyrrole (PY) as the precursors. The morphology, structure and composition of these MnO@NHCNT- v samples are systematically investigated. And the effect of PY adding amounts on the synthesis of MnO@NHCNT- v samples is also explored. The results show that the Mn 3 O 4 NT works as a self-template, which releases Mn 3+ and guides the growth of polypyrrole (PPY) on Mn 3 O 4 NT. Meanwhile, it is demonstrated that the synthesis of MnO@NHCNT- v hybrids can be well regulated by the added PY amounts. As a result, MnO@NHCNT-1 hybrid not only makes a good balance on the proportion of MnO and carbon matrix but also simultaneously obtains unique peapod-like structure and successful N doping in NHCNT, resulting in good electrical contact between the two components, enhanced chemical binding by Mn–N–C bonds and enough void space inside its microstructure. Benefitting from these merits, the resulting MnO@NHCNT-1 hybrid exhibits outstanding cycling stability and rate capability when used as a LIBs anode. Our work offers a good guidance on the design and preparation of low-price and high-performance TMOs/C-based LIBs anodes. Graphical abstract
AbstractList	The exploration of low-cost and high-performance transition metal oxides/carbon (TMOs/C)–based anodes to replace commercial graphite is still a huge challenge for the development of lithium-ion batteries (LIBs). In this work, MnO@N-doped hollow carbon nanotubes (MnO@NHCNT-v, v refers to the adding volume of pyrrole) hybrids are successfully prepared by a facile self-template strategy using Mn3O4 nanotubes (Mn3O4 NT) and pyrrole (PY) as the precursors. The morphology, structure and composition of these MnO@NHCNT-v samples are systematically investigated. And the effect of PY adding amounts on the synthesis of MnO@NHCNT-v samples is also explored. The results show that the Mn3O4 NT works as a self-template, which releases Mn3+ and guides the growth of polypyrrole (PPY) on Mn3O4 NT. Meanwhile, it is demonstrated that the synthesis of MnO@NHCNT-v hybrids can be well regulated by the added PY amounts. As a result, MnO@NHCNT-1 hybrid not only makes a good balance on the proportion of MnO and carbon matrix but also simultaneously obtains unique peapod-like structure and successful N doping in NHCNT, resulting in good electrical contact between the two components, enhanced chemical binding by Mn–N–C bonds and enough void space inside its microstructure. Benefitting from these merits, the resulting MnO@NHCNT-1 hybrid exhibits outstanding cycling stability and rate capability when used as a LIBs anode. Our work offers a good guidance on the design and preparation of low-price and high-performance TMOs/C-based LIBs anodes. The exploration of low-cost and high-performance transition metal oxides/carbon (TMOs/C)–based anodes to replace commercial graphite is still a huge challenge for the development of lithium-ion batteries (LIBs). In this work, MnO@N-doped hollow carbon nanotubes (MnO@NHCNT- v , v refers to the adding volume of pyrrole) hybrids are successfully prepared by a facile self-template strategy using Mn 3 O 4 nanotubes (Mn 3 O 4 NT) and pyrrole (PY) as the precursors. The morphology, structure and composition of these MnO@NHCNT- v samples are systematically investigated. And the effect of PY adding amounts on the synthesis of MnO@NHCNT- v samples is also explored. The results show that the Mn 3 O 4 NT works as a self-template, which releases Mn 3+ and guides the growth of polypyrrole (PPY) on Mn 3 O 4 NT. Meanwhile, it is demonstrated that the synthesis of MnO@NHCNT- v hybrids can be well regulated by the added PY amounts. As a result, MnO@NHCNT-1 hybrid not only makes a good balance on the proportion of MnO and carbon matrix but also simultaneously obtains unique peapod-like structure and successful N doping in NHCNT, resulting in good electrical contact between the two components, enhanced chemical binding by Mn–N–C bonds and enough void space inside its microstructure. Benefitting from these merits, the resulting MnO@NHCNT-1 hybrid exhibits outstanding cycling stability and rate capability when used as a LIBs anode. Our work offers a good guidance on the design and preparation of low-price and high-performance TMOs/C-based LIBs anodes. Graphical abstract
Author	Hou, Zhao-Hui Wang, Wei Chen, Liang Liu, Yan-Ping Fu, Wen-Bin Ren, Wen-Qing Yin, Hong He, Bin-Hong Xu, Chen-Xi Hu, Li-Ying
Author_xml	– sequence: 1 givenname: Yan-Ping surname: Liu fullname: Liu, Yan-Ping organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 2 givenname: Chen-Xi surname: Xu fullname: Xu, Chen-Xi organization: College of Chemistry and Chemical Engineering, Hunan University – sequence: 3 givenname: Wen-Qing surname: Ren fullname: Ren, Wen-Qing organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 4 givenname: Li-Ying surname: Hu fullname: Hu, Li-Ying organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 5 givenname: Wen-Bin surname: Fu fullname: Fu, Wen-Bin organization: School of Materials Science and Engineering, Georgia Institute of Technology – sequence: 6 givenname: Wei surname: Wang fullname: Wang, Wei organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 7 givenname: Hong surname: Yin fullname: Yin, Hong organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 8 givenname: Bin-Hong surname: He fullname: He, Bin-Hong organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 9 givenname: Zhao-Hui orcidid: 0000-0003-1621-8242 surname: Hou fullname: Hou, Zhao-Hui email: zhaohuihou@126.com organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology – sequence: 10 givenname: Liang orcidid: 0000-0003-0560-8050 surname: Chen fullname: Chen, Liang email: clvilance@163.com organization: Key Laboratory of Hunan Province for Advanced Carbon-Based Functional Materials, School of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology
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Keywords	Lithium storage performance Self-template strategy MnO@N-doped hollow carbon nanotubes (MnO@NHCNT) Peapod-like structure N doping
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Snippet	The exploration of low-cost and high-performance transition metal oxides/carbon (TMOs/C)–based anodes to replace commercial graphite is still a huge challenge...
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SubjectTerms	Anodes Biomaterials Carbon Carbon nanotubes Chemistry and Materials Science Electric contacts Energy Lithium-ion batteries Manganese oxides Materials Engineering Materials Science Metallic Materials Nanoscale Science and Technology Original Article Physical Chemistry Polypyrroles Rechargeable batteries Synthesis Transition metal oxides
Title	Self-template synthesis of peapod-like MnO@N-doped hollow carbon nanotubes as an advanced anode for lithium-ion batteries
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