Anchoring hollow MoO2 spheres on graphene for superior lithium storage

•Hollow MoO2 spheres anchored on nitrogen-doped graphene are synthesized.•The COMo linkage between MoO2 and graphene is found and studied.•H-MoO2@rGO delivers superior cycle performance and rate capability. Hollow MoO2 spheres anchored on nitrogen-doped graphene (H-MoO2@rGO) are synthesized with an...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 334; pp. 257 - 263
Main Authors Wang, Pengxiang, Zhang, Yu, Yin, Yanyou, Fan, Lishuang, Zhang, Naiqing, Sun, Kening
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.02.2018
Subjects
Graphene
Hollow structure
Lithium storage
Molybdenum dioxide
Hollow structure
Graphene
Lithium storage
Molybdenum dioxide
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Abstract •Hollow MoO2 spheres anchored on nitrogen-doped graphene are synthesized.•The COMo linkage between MoO2 and graphene is found and studied.•H-MoO2@rGO delivers superior cycle performance and rate capability. Hollow MoO2 spheres anchored on nitrogen-doped graphene (H-MoO2@rGO) are synthesized with an in situ self-assembly approach. The hollow structure could provide sufficient space to accommodate the volume variation of MoO2 during the discharge-charge process, thus improving the cycling stability. Nitrogen-doped graphene can accelerate the charge transfer. Moreover, the graphene and MoO2 are proved to be strongly connected through COMo linkage, which provide good pathways for charge transfer and thus allowing an improved rate capability. Benefiting from the above features, H-MoO2@rGO delivers impressive cycling stability with a capacity of 414 mAh g−1 after 1000 cycles at 2 C. Even at a high discharge/charge rate of 5 C, the composite still could deliver a capacity of 478 mAh g−1.
AbstractList •Hollow MoO2 spheres anchored on nitrogen-doped graphene are synthesized.•The COMo linkage between MoO2 and graphene is found and studied.•H-MoO2@rGO delivers superior cycle performance and rate capability. Hollow MoO2 spheres anchored on nitrogen-doped graphene (H-MoO2@rGO) are synthesized with an in situ self-assembly approach. The hollow structure could provide sufficient space to accommodate the volume variation of MoO2 during the discharge-charge process, thus improving the cycling stability. Nitrogen-doped graphene can accelerate the charge transfer. Moreover, the graphene and MoO2 are proved to be strongly connected through COMo linkage, which provide good pathways for charge transfer and thus allowing an improved rate capability. Benefiting from the above features, H-MoO2@rGO delivers impressive cycling stability with a capacity of 414 mAh g−1 after 1000 cycles at 2 C. Even at a high discharge/charge rate of 5 C, the composite still could deliver a capacity of 478 mAh g−1.
Author Sun, Kening
Zhang, Naiqing
Fan, Lishuang
Yin, Yanyou
Zhang, Yu
Wang, Pengxiang
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Lithium storage
Molybdenum dioxide
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Snippet •Hollow MoO2 spheres anchored on nitrogen-doped graphene are synthesized.•The COMo linkage between MoO2 and graphene is found and studied.•H-MoO2@rGO delivers...
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SubjectTerms Graphene
Hollow structure
Lithium storage
Molybdenum dioxide
Title Anchoring hollow MoO2 spheres on graphene for superior lithium storage
URI https://dx.doi.org/10.1016/j.cej.2017.10.009
Volume 334
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