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Electrochimica Acta
Volumn 204, Issue , 2016, Pages 92-99
Preparation of Li4Ti5O12 nanosheets/carbon nanotubes composites and application of anode materials for lithium-ion batteries
Author keywords

Carbon nanotubes; Lithium ion batteries; Lithium ion diffusion coefficient; Lithium titanate nanosheets; Rate performance
Indexed keywords

ANODES; CARBON; CARBON NANOTUBES; CHARGE TRANSFER; DIFFUSION; ELECTRIC BATTERIES; IONS; LITHIUM; LITHIUM ALLOYS; LITHIUM COMPOUNDS; NANOSHEETS; NANOTUBES; SECONDARY BATTERIES; YARN;
EID: 84963864684     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2016.04.053     Document Type: Article
Times cited : (51)
References (53)
  • 2
    • 84901363007 scopus 로고    scopus 로고
    • 12 nanosheet arrays for lithium ion batteries with excellent rate capability and ultralong cycle life
    • 12 nanosheet arrays for lithium ion batteries with excellent rate capability and ultralong cycle life Energy Environ. Sci. 7 2014 1924 1930
    • (2014) Energy Environ. Sci. , vol.7 , pp. 1924-1930
    • Chen, S.1    Xin, Y.2    Zhou, Y.3    Zhou, Y.4    Ma, Y.5    Zhou, H.6    Qi, L.7
  • 3
    • 84900521623 scopus 로고    scopus 로고
    • 12-C Nanotube Arrays as High-Rate and Long-Life Anode Materials for Flexible Li-Ion Batteries
    • 12-C Nanotube Arrays as High-Rate and Long-Life Anode Materials for Flexible Li-Ion Batteries Nano Lett. 14 2014 2597 2603
    • (2014) Nano Lett. , vol.14 , pp. 2597-2603
    • Liu, J.1    Song, K.2    Aken, P.3    Maier, J.4    Yu, Y.5
  • 4
    • 84864248159 scopus 로고    scopus 로고
    • Nanoscale Porous Framework of Lithium Titanate for Ultrafast Lithium Insertion
    • J. Feckl, K. Fominykh, M. Doblinger, D. Rohlfing, and T. Bein Nanoscale Porous Framework of Lithium Titanate for Ultrafast Lithium Insertion Angew. Chem. Int. Ed. 51 2012 7459 7463
    • (2012) Angew. Chem. Int. Ed. , vol.51 , pp. 7459-7463
    • Feckl, J.1    Fominykh, K.2    Doblinger, M.3    Rohlfing, D.4    Bein, T.5
  • 5
    • 84871318013 scopus 로고    scopus 로고
    • 12 Nanowire Arrays for High Rate Lithium Ion Batteries
    • 12 Nanowire Arrays for High Rate Lithium Ion Batteries Adv. Mater. 24 2012 6502 6506
    • (2012) Adv. Mater. , vol.24 , pp. 6502-6506
    • Shen, L.1    Uchaker, E.2    Zhang, X.3    Cao, G.4
  • 10
    • 80755130093 scopus 로고    scopus 로고
    • 12/multi-walled carbon nanotubes composite anode material for Li-ion batteries by ball-milling-assisted solid-state reaction
    • 12/multi-walled carbon nanotubes composite anode material for Li-ion batteries by ball-milling-assisted solid-state reaction J. Power Sources 198 2012 294 297
    • (2012) J. Power Sources , vol.198 , pp. 294-297
    • Jhan, Y.1    Duh, J.2
  • 13
    • 84877067910 scopus 로고    scopus 로고
    • 12/carbon composite with high rate capability as anode materials for lithium ion batteries
    • 12/carbon composite with high rate capability as anode materials for lithium ion batteries Electrochimica Acta 102 2013 282 289
    • (2013) Electrochimica Acta , vol.102 , pp. 282-289
    • Ding, Y.1    Li, G.2    Xiao, C.3    Gao, X.4
  • 19
    • 84863705894 scopus 로고    scopus 로고
    • 12 Nanoparticles Embedded in a Mesoporous Carbon Matrix as a Superior Anode Material for High Rate Lithium Ion Batteries
    • 12 Nanoparticles Embedded in a Mesoporous Carbon Matrix as a Superior Anode Material for High Rate Lithium Ion Batteries Adv. Energy Mater. 2 2012 691 698
    • (2012) Adv. Energy Mater. , vol.2 , pp. 691-698
    • Shen, L.1    Zhang, X.2    Uchaker, E.3    Yuan, C.4    Cao, G.5
  • 20
    • 84929170528 scopus 로고    scopus 로고
    • 12/graphene composites as anode material by a solid state-assembly method
    • 12/graphene composites as anode material by a solid state-assembly method Electrochimica Acta 171 2015 114 120
    • (2015) Electrochimica Acta , vol.171 , pp. 114-120
    • Liu, H.1    Wen, G.2    Bi, S.3    Gao, P.4
  • 22
    • 84887941721 scopus 로고    scopus 로고
    • 12 nanosheets with enhanced lithium storage properties
    • 12 nanosheets with enhanced lithium storage properties J. Mater. Chem. A 1 2013 15429 15434
    • (2013) J. Mater. Chem. A , vol.1 , pp. 15429-15434
    • Zhang, Z.1    Li, G.2    Peng, H.3    Chen, K.4
  • 24
    • 84869184236 scopus 로고    scopus 로고
    • General Strategy for Designing Core-Shell Nanostructured Materials for High-Power Lithium Ion Batteries
    • L. Shen, H. Li, E. Uchaker, X. Zhang, and G. Cao General Strategy for Designing Core-Shell Nanostructured Materials for High-Power Lithium Ion Batteries Nano. Lett. 12 2012 5673 5678
    • (2012) Nano. Lett. , vol.12 , pp. 5673-5678
    • Shen, L.1    Li, H.2    Uchaker, E.3    Zhang, X.4    Cao, G.5
  • 25
    • 84904558305 scopus 로고    scopus 로고
    • Lithium Titanate Tailored by Cathodically Induced Graphene for an Ultrafast Lithium Ion Battery
    • Y. Yang, B. Qiao, X. Yang, L. Fang, C. Pan, W. Song, H. Hou, and X. Ji Lithium Titanate Tailored by Cathodically Induced Graphene for an Ultrafast Lithium Ion Battery Adv. Funct. Mater. 24 2014 4349 4356
    • (2014) Adv. Funct. Mater. , vol.24 , pp. 4349-4356
    • Yang, Y.1    Qiao, B.2    Yang, X.3    Fang, L.4    Pan, C.5    Song, W.6    Hou, H.7    Ji, X.8
  • 26
    • 84881655064 scopus 로고    scopus 로고
    • 12/C nanocomposite with oleic acid as carbon precursor and particle size controller
    • 12/C nanocomposite with oleic acid as carbon precursor and particle size controller J. Power Sources 246 2014 213 218
    • (2014) J. Power Sources , vol.246 , pp. 213-218
    • Wang, Y.1    Rong, H.2    Li, B.3    Xing, L.4    Li, X.5    Li, W.6
  • 27
    • 84873707666 scopus 로고    scopus 로고
    • 12/C anode material via polyvinyl alcohol as carbon source for high-rate rechargeable Li-ion batteries
    • 12/C anode material via polyvinyl alcohol as carbon source for high-rate rechargeable Li-ion batteries Electrochimica Acta 93 2013 173 178
    • (2013) Electrochimica Acta , vol.93 , pp. 173-178
    • Fang, W.1    Cheng, X.2    Zuo, P.3    Ma, Y.4    Yin, G.5
  • 28
    • 84876488798 scopus 로고    scopus 로고
    • 12 Hollow Spheres with Enhanced Lithium Storage Capability
    • David
    • 12 Hollow Spheres with Enhanced Lithium Storage Capability Adv. Mater. 25 2013 2296 2300
    • (2013) Adv. Mater. , vol.25 , pp. 2296-2300
    • Yu, L.1    Wu, H.2    Lou, X.3
  • 29
    • 84875863363 scopus 로고    scopus 로고
    • 12 as an effective anode material for lithium ion batteries with outstanding long-term cyclability and rate capabilities
    • 12 as an effective anode material for lithium ion batteries with outstanding long-term cyclability and rate capabilities J. Mater. Chem. A 1 2013 89 96
    • (2013) J. Mater. Chem. A , vol.1 , pp. 89-96
    • Bai, Y.-J.1    Gong, C.2    Lun, N.3    Qi, Y.-X.4
  • 30
    • 84906771957 scopus 로고    scopus 로고
    • 12/CNTs composite for the anode of high-power lithium-ion batteries: Intrinsic and extrinsic effects
    • 12/CNTs composite for the anode of high-power lithium-ion batteries: Intrinsic and extrinsic effects Electrochimica Acta 143 2014 29 35
    • (2014) Electrochimica Acta , vol.143 , pp. 29-35
    • Liu, C.1    Song, S.2    Lai, M.3    Lu, L.4
  • 31
    • 84901795759 scopus 로고    scopus 로고
    • 12 submicrospheres as anode materials for lithium-ion batteries: Morphology and electrochemical performances
    • 12 submicrospheres as anode materials for lithium-ion batteries: morphology and electrochemical performances Nanoscale 6 2014 6651 6660
    • (2014) Nanoscale , vol.6 , pp. 6651-6660
    • Lin, C.1    Fan, X.2    Xin, Y.3    Cheng, F.4    Lai, M.5    Zhou, H.6    Lu, L.7
  • 34
    • 84885942091 scopus 로고    scopus 로고
    • 12 nanoplates for lithium-ion batteries with outstanding rate capability and cycling stability
    • 12 nanoplates for lithium-ion batteries with outstanding rate capability and cycling stability J. Mater. Chem. A 1 2013 13233 13243
    • (2013) J. Mater. Chem. A , vol.1 , pp. 13233-13243
    • Sha, Y.1    Zhao, B.2    Ran, R.3    Cai, R.4    Shao, Z.5
  • 35
  • 36
    • 79952643490 scopus 로고    scopus 로고
    • 12 Coated with N-Doped Carbon from Ionic Liquids for Li-Ion Batteries
    • 12 Coated with N-Doped Carbon from Ionic Liquids for Li-Ion Batteries Adv. Mater. 23 2013 1385 1388
    • (2013) Adv. Mater. , vol.23 , pp. 1385-1388
    • Zhao, L.1    Hu, Y.-S.2    Li, H.3    Wang, Z.4    Chen, L.5
  • 37
    • 81555229442 scopus 로고    scopus 로고
    • 12 Negative Electrode via Carbon-Coated Mesoporous Uniform Pores with a Simple Self-Assembly Method
    • J. Kim, J. Lee
    • 12 Negative Electrode via Carbon-Coated Mesoporous Uniform Pores with a Simple Self-Assembly Method J. Kim, J. Lee, Adv. Funct. Mater. 21 2011 4349 4357
    • (2011) Adv. Funct. Mater. , vol.21 , pp. 4349-4357
    • Kang, E.1    Jung, Y.2    Kim, G.-H.3    Chun, J.4    Wiesner, U.5    Dillon, A.6
  • 40
    • 84921483613 scopus 로고    scopus 로고
    • 12 Nanowire with High Electrochemical Performance under Elevated Temperature
    • 12 Nanowire with High Electrochemical Performance under Elevated Temperature Electrochimica Acta 156 2015 38 44
    • (2015) Electrochimica Acta , vol.156 , pp. 38-44
    • Liu, J.1    Shen, Y.2    Chen, L.3    Wang, Y.4    Xia, Y.5
  • 41
    • 84924935580 scopus 로고    scopus 로고
    • 12 microspheres as high-performance anodes for lithium ion batteries
    • 12 microspheres as high-performance anodes for lithium ion batteries Electrochimica Acta 165 2015 422 429
    • (2015) Electrochimica Acta , vol.165 , pp. 422-429
    • Zhang, J.1    Cai, Y.2    Yao, J.3
  • 43
    • 84887842783 scopus 로고    scopus 로고
    • 12 Nanosheets with a N-Doped Carbon Coating for High Rate Lithium Ion Batteries
    • 12 Nanosheets with a N-Doped Carbon Coating for High Rate Lithium Ion Batteries Adv. Funct. Mater. 23 2013 5429 5435
    • (2013) Adv. Funct. Mater. , vol.23 , pp. 5429-5435
    • Li, N.1    Zhou, G.2    Li, F.3    Wen, L.4    Cheng, H.-M.5
  • 44
    • 85006379881 scopus 로고    scopus 로고
    • Highly Crystalline Lithium Titanium Oxide Sheets Coated with Nitrogen-Doped Carbon enable High-Rate Lithium-Ion Batteries
    • C. Han, Y.-B. He, B. Li, H. Li, J. Ma, H. Du, X. Qin, Q.-H. Yang, and F. Kang Highly Crystalline Lithium Titanium Oxide Sheets Coated with Nitrogen-Doped Carbon enable High-Rate Lithium-Ion Batteries ChemSusChem 7 2014 2567 2574
    • (2014) ChemSusChem , vol.7 , pp. 2567-2574
    • Han, C.1    He, Y.-B.2    Li, B.3    Li, H.4    Ma, J.5    Du, H.6    Qin, X.7    Yang, Q.-H.8    Kang, F.9
  • 50
    • 84881470156 scopus 로고    scopus 로고
    • 12 decorated on non-oxidized carbon nanotubes with enhanced rate capability for lithium-ion batteries
    • 12 decorated on non-oxidized carbon nanotubes with enhanced rate capability for lithium-ion batteries RSC Advances 3 2013 14267 14272
    • (2013) RSC Advances , vol.3 , pp. 14267-14272
    • Kim, H.-K.1    Roh, K.2    Kang, K.3    Kim, K.-B.4
  • 51
    • 84861394935 scopus 로고    scopus 로고
    • 12 anchored on carbon nanotubes by liquid phase deposition as anode material for high rate lithium-ion batteries
    • 12 anchored on carbon nanotubes by liquid phase deposition as anode material for high rate lithium-ion batteries J. Power Sources 214 2012 195 199
    • (2012) J. Power Sources , vol.214 , pp. 195-199
    • Ni, H.1    Fan, L.-Z.2
  • 52
    • 84919347905 scopus 로고    scopus 로고
    • 12 nanosheets decorated with silver nanocrystals as a high-performance anode material for lithium ion batteries
    • 12 nanosheets decorated with silver nanocrystals as a high-performance anode material for lithium ion batteries J. Power Sources 276 2015 247 254
    • (2015) J. Power Sources , vol.276 , pp. 247-254
    • Xu, G.1    Li, W.2    Yang, L.3    Wei, X.4    Ding, J.5    Zhong, J.6    Chu, P.7

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.