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Energy
Volumn 85, Issue , 2015, Pages 159-166
Mesoporous silicon/carbon hybrids with ordered pore channel retention and tunable carbon incorporated content as high performance anode materials for lithium-ion batteries
Author keywords

Anode material; Hybrid; Lithium ion battery; Mesoporous silicon
Indexed keywords

ANODES; CARBON; ELECTRIC BATTERIES; ELECTRODES; IONS; LITHIUM; LITHIUM ALLOYS; LITHIUM COMPOUNDS; MESOPOROUS MATERIALS; SILICON;
EID: 84929510080     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2015.03.090     Document Type: Article
Times cited : (45)
References (36)
  • 1
    • 38949102073 scopus 로고    scopus 로고
    • Building better batteries
    • Armand M., Tarascon J.M. Building better batteries. Nature 2008, 451:652-657.
    • (2008) Nature , vol.451 , pp. 652-657
    • Armand, M.1    Tarascon, J.M.2
  • 2
    • 81555207951 scopus 로고    scopus 로고
    • Electrical energy storage for the grid: a battery of choices
    • Dunn B., Kamath H., Tarascon J.M. Electrical energy storage for the grid: a battery of choices. Science 2011, 334:928-935.
    • (2011) Science , vol.334 , pp. 928-935
    • Dunn, B.1    Kamath, H.2    Tarascon, J.M.3
  • 3
    • 84878649422 scopus 로고    scopus 로고
    • 12/carbon hybrid nanowebs as anode material for lithium-ion batteries
    • 12/carbon hybrid nanowebs as anode material for lithium-ion batteries. Energy 2013, 55:925-932.
    • (2013) Energy , vol.55 , pp. 925-932
    • Yang, Z.1    Meng, Q.2    Guo, Z.3    Yu, X.4    Yu, X.5    Guo, T.6
  • 4
    • 84901495631 scopus 로고    scopus 로고
    • Novel MnOxatcarbon hybrid nanowires with core/shell architecture as highly reversible anode materials for lithium ion batteries
    • Pang H., Yang Z., Lv J., Yang W., Guo T. Novel MnOxatcarbon hybrid nanowires with core/shell architecture as highly reversible anode materials for lithium ion batteries. Energy 2014, 69:392-398.
    • (2014) Energy , vol.69 , pp. 392-398
    • Pang, H.1    Yang, Z.2    Lv, J.3    Yang, W.4    Guo, T.5
  • 5
    • 84892978838 scopus 로고    scopus 로고
    • Multi-functional energy conversion and storage electrodes using flower-like zinc oxide nanostructures
    • Cauda V., Pugliese D., Carino N., Sacco A., Bianco S., Bella F., et al. Multi-functional energy conversion and storage electrodes using flower-like zinc oxide nanostructures. Energy 2014, 65:639-646.
    • (2014) Energy , vol.65 , pp. 639-646
    • Cauda, V.1    Pugliese, D.2    Carino, N.3    Sacco, A.4    Bianco, S.5    Bella, F.6
  • 6
    • 84867672114 scopus 로고    scopus 로고
    • Designing nanostructured Si anodes for high energy lithium ion batteries
    • Wu H., Cui Y. Designing nanostructured Si anodes for high energy lithium ion batteries. Nano Today 2012, 7:414-429.
    • (2012) Nano Today , vol.7 , pp. 414-429
    • Wu, H.1    Cui, Y.2
  • 8
    • 84872145320 scopus 로고    scopus 로고
    • Carbon-coated Si nanoparticles dispersed in carbon nanotube networks as anode material for lithium-ion batteries
    • Xue L., Xu G., Li Y., Li S., Fu K., Shi Q., et al. Carbon-coated Si nanoparticles dispersed in carbon nanotube networks as anode material for lithium-ion batteries. ACS Appl Mater Interf 2013, 5:21-25.
    • (2013) ACS Appl Mater Interf , vol.5 , pp. 21-25
    • Xue, L.1    Xu, G.2    Li, Y.3    Li, S.4    Fu, K.5    Shi, Q.6
  • 9
    • 80053544295 scopus 로고    scopus 로고
    • Nanocable arrays as high-rate anode materials for lithium-ion batteries
    • Cao F.F., Deng J.W., Xin S., Ji H.X., Schmidt O.G., Wan L.J., et al. Nanocable arrays as high-rate anode materials for lithium-ion batteries. Adv Mater 2011, 23:4415-4420.
    • (2011) Adv Mater , vol.23 , pp. 4415-4420
    • Cao, F.F.1    Deng, J.W.2    Xin, S.3    Ji, H.X.4    Schmidt, O.G.5    Wan, L.J.6
  • 11
    • 84880175950 scopus 로고    scopus 로고
    • Hierarchical silicon nanowires-carbon textiles matrix as a binder-free anode for high-performance advanced lithium ion batteries
    • 1622-1-7
    • Liu B., Wang X., Chen H., Wang Z., Chen D., Cheng Y., et al. Hierarchical silicon nanowires-carbon textiles matrix as a binder-free anode for high-performance advanced lithium ion batteries. Sci Rep 2013, 3. 1622-1-7.
    • (2013) Sci Rep , vol.3
    • Liu, B.1    Wang, X.2    Chen, H.3    Wang, Z.4    Chen, D.5    Cheng, Y.6
  • 13
    • 84862805736 scopus 로고    scopus 로고
    • Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control
    • Wu H., Chan G., Choi J.W., Ryu I., Yao Y., McDowell M.T., et al. Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control. Nat Nanotechnol 2012, 7:310-315.
    • (2012) Nat Nanotechnol , vol.7 , pp. 310-315
    • Wu, H.1    Chan, G.2    Choi, J.W.3    Ryu, I.4    Yao, Y.5    McDowell, M.T.6
  • 14
    • 84862281347 scopus 로고    scopus 로고
    • A yolk-shell design for stabilized and scalable Li-ion battery alloy anodes
    • Liu N., Wu H., McDowell M.T., Yao Y., Wang C., Cui Y. A yolk-shell design for stabilized and scalable Li-ion battery alloy anodes. Nano Lett 2012, 12:3315-3321.
    • (2012) Nano Lett , vol.12 , pp. 3315-3321
    • Liu, N.1    Wu, H.2    McDowell, M.T.3    Yao, Y.4    Wang, C.5    Cui, Y.6
  • 15
    • 84887440117 scopus 로고    scopus 로고
    • Influence of silicon nanoscale building blocks size and carbon coating on the performance of micro-sized Si-C composite Li-ion anodes
    • Yi R., Dai F., Gordin M.L., Sohn H., Wang D. Influence of silicon nanoscale building blocks size and carbon coating on the performance of micro-sized Si-C composite Li-ion anodes. Adv Energy Mater 2013, 3:1507-1515.
    • (2013) Adv Energy Mater , vol.3 , pp. 1507-1515
    • Yi, R.1    Dai, F.2    Gordin, M.L.3    Sohn, H.4    Wang, D.5
  • 16
    • 84874968943 scopus 로고    scopus 로고
    • Growth of silicon/carbon microrods on graphite microspheres as improved anodes for lithium-ion batteries
    • Zhu X., Chen H., Wang Y., Xia L., Tan Q., Li H., et al. Growth of silicon/carbon microrods on graphite microspheres as improved anodes for lithium-ion batteries. J Mater Chem A 2013, 1:4483-4489.
    • (2013) J Mater Chem A , vol.1 , pp. 4483-4489
    • Zhu, X.1    Chen, H.2    Wang, Y.3    Xia, L.4    Tan, Q.5    Li, H.6
  • 17
    • 84867288645 scopus 로고    scopus 로고
    • Self-assembled nanocomposite of silicon nanoparticles encapsulated in graphene through electrostatic attraction for lithium-ion batteries
    • Zhou X., Yin Y.X., Wan L.J., Guo Y.G. Self-assembled nanocomposite of silicon nanoparticles encapsulated in graphene through electrostatic attraction for lithium-ion batteries. Adv Energy Mater 2012, 2:1086-1090.
    • (2012) Adv Energy Mater , vol.2 , pp. 1086-1090
    • Zhou, X.1    Yin, Y.X.2    Wan, L.J.3    Guo, Y.G.4
  • 18
    • 69649097417 scopus 로고    scopus 로고
    • Electrospun carbon nanofibers containing silicon particles as an energy-storage medium
    • Ji L., Zhang X. Electrospun carbon nanofibers containing silicon particles as an energy-storage medium. Carbon 2009, 47:3219-3226.
    • (2009) Carbon , vol.47 , pp. 3219-3226
    • Ji, L.1    Zhang, X.2
  • 19
    • 70349961704 scopus 로고    scopus 로고
    • Carbon-silicon core-shell nanowires as high capacity electrode for lithium ion batteries
    • Cui L.F., Yang Y., Hsu C.M., Cui Y. Carbon-silicon core-shell nanowires as high capacity electrode for lithium ion batteries. Nano Lett 2009, 9:3370-3374.
    • (2009) Nano Lett , vol.9 , pp. 3370-3374
    • Cui, L.F.1    Yang, Y.2    Hsu, C.M.3    Cui, Y.4
  • 20
    • 57749088573 scopus 로고    scopus 로고
    • Three-dimensional porous silicon particles for use in high-performance lithium secondary batteries
    • Kim H., Han B., Choo J., Cho J. Three-dimensional porous silicon particles for use in high-performance lithium secondary batteries. Angew Chem Int Ed 2008, 47:10151-10154.
    • (2008) Angew Chem Int Ed , vol.47 , pp. 10151-10154
    • Kim, H.1    Han, B.2    Choo, J.3    Cho, J.4
  • 21
    • 67649234081 scopus 로고    scopus 로고
    • Silicon inverse-opal-based macroporous materials as negative electrodes for lithium ion batteries
    • Esmanski A., Ozin G.A. Silicon inverse-opal-based macroporous materials as negative electrodes for lithium ion batteries. Adv Funct Mater 2009, 19:1999-2010.
    • (2009) Adv Funct Mater , vol.19 , pp. 1999-2010
    • Esmanski, A.1    Ozin, G.A.2
  • 22
    • 84867296807 scopus 로고    scopus 로고
    • High-performance macroporous bulk silicon anodes synthesized by template-free chemical etching
    • Bang B.M., Lee J.I., Kim H., Cho J., Park S. High-performance macroporous bulk silicon anodes synthesized by template-free chemical etching. Adv Energy Mater 2012, 2:878-883.
    • (2012) Adv Energy Mater , vol.2 , pp. 878-883
    • Bang, B.M.1    Lee, J.I.2    Kim, H.3    Cho, J.4    Park, S.5
  • 23
    • 82555161602 scopus 로고    scopus 로고
    • Scalable approach to multi-dimensional bulk Si anodes via metal-assisted chemical etching
    • Bang B.M., Kim H., Song H.K., Cho J., Park S. Scalable approach to multi-dimensional bulk Si anodes via metal-assisted chemical etching. Energy Environ Sci 2011, 4:5013-5019.
    • (2011) Energy Environ Sci , vol.4 , pp. 5013-5019
    • Bang, B.M.1    Kim, H.2    Song, H.K.3    Cho, J.4    Park, S.5
  • 24
    • 33947099047 scopus 로고    scopus 로고
    • Chemical reduction of three-dimensional silica micro-assemblies into microporous silicon replicas
    • Bao Z., Weatherspoon M.R., Shian S., Cai Y., Graham P.D., Allan S.M., et al. Chemical reduction of three-dimensional silica micro-assemblies into microporous silicon replicas. Nature 2007, 446:172-175.
    • (2007) Nature , vol.446 , pp. 172-175
    • Bao, Z.1    Weatherspoon, M.R.2    Shian, S.3    Cai, Y.4    Graham, P.D.5    Allan, S.M.6
  • 25
    • 84856483134 scopus 로고    scopus 로고
    • Novel three-dimensional mesoporous silicon for high power lithium-ion battery anode material
    • Jia H., Gao P., Yang J., Wang J., Nuli Y., Yang Z. Novel three-dimensional mesoporous silicon for high power lithium-ion battery anode material. Adv Energy Mater 2011, 1:1036-1039.
    • (2011) Adv Energy Mater , vol.1 , pp. 1036-1039
    • Jia, H.1    Gao, P.2    Yang, J.3    Wang, J.4    Nuli, Y.5    Yang, Z.6
  • 26
    • 84860445892 scopus 로고    scopus 로고
    • Facile synthesis of ordered porous SiatC nanorods as anode materials for Li-ion batteries
    • Tao H.C., Fan L.Z., Qu X. Facile synthesis of ordered porous SiatC nanorods as anode materials for Li-ion batteries. Electrochim Acta 2012, 71:194-200.
    • (2012) Electrochim Acta , vol.71 , pp. 194-200
    • Tao, H.C.1    Fan, L.Z.2    Qu, X.3
  • 27
    • 84871786108 scopus 로고    scopus 로고
    • Mesoporous Si/C composite anode for Li battery obtained by magnesium-thermal reduction process
    • Hong I., Scrosati B., Croce F. Mesoporous Si/C composite anode for Li battery obtained by magnesium-thermal reduction process. Solid State Ionics 2013, 232:24-28.
    • (2013) Solid State Ionics , vol.232 , pp. 24-28
    • Hong, I.1    Scrosati, B.2    Croce, F.3
  • 28
    • 0032559316 scopus 로고    scopus 로고
    • Triblock copolymer syntheses of mesoporous silica with periodic 50 to 300 angstrom pores
    • Zhao D., Feng J., Huo Q., Melosh N., Fredrickson G., Chmelka B.F., et al. Triblock copolymer syntheses of mesoporous silica with periodic 50 to 300 angstrom pores. Science 1998, 273:548-552.
    • (1998) Science , vol.273 , pp. 548-552
    • Zhao, D.1    Feng, J.2    Huo, Q.3    Melosh, N.4    Fredrickson, G.5    Chmelka, B.F.6
  • 29
    • 84864217517 scopus 로고    scopus 로고
    • 4/ordered mesoporous carbons for high performance anode materials for lithium-ion batteries
    • 4/ordered mesoporous carbons for high performance anode materials for lithium-ion batteries. J Mater Chem 2012, 22:16640-16648.
    • (2012) J Mater Chem , vol.22 , pp. 16640-16648
    • Li, Z.1    Liu, N.2    Wang, X.3    Wang, C.4    Qi, Y.5    Yin, L.6
  • 30
    • 84890149728 scopus 로고    scopus 로고
    • Rational design of carbon network cross-linked Si-SiC hollow nanosphere as anode of lithium-ion batteries
    • Wen Z., Lu G., Cui S., Kim H., Ci S., Jiang J., et al. Rational design of carbon network cross-linked Si-SiC hollow nanosphere as anode of lithium-ion batteries. Nanoscale 2014, 6:342-351.
    • (2014) Nanoscale , vol.6 , pp. 342-351
    • Wen, Z.1    Lu, G.2    Cui, S.3    Kim, H.4    Ci, S.5    Jiang, J.6
  • 31
    • 78650495015 scopus 로고    scopus 로고
    • Anchoring Si nanoparticles to carbon nanofibers: an efficient procedure for improving Si performance in Li batteries
    • Juan Luis Gómez-Cámer J.L., Morales J., Sánchez L. Anchoring Si nanoparticles to carbon nanofibers: an efficient procedure for improving Si performance in Li batteries. J Mater Chem 2011, 21:811-818.
    • (2011) J Mater Chem , vol.21 , pp. 811-818
    • Juan Luis Gómez-Cámer, J.L.1    Morales, J.2    Sánchez, L.3
  • 32
    • 84896816590 scopus 로고    scopus 로고
    • Hollow core-shell structured Si/C nanocomposites as high-performance anode materials for lithium-ion batteries
    • Tao H., Fan L.Z., Song W.L., Wu M., He X., Qu X. Hollow core-shell structured Si/C nanocomposites as high-performance anode materials for lithium-ion batteries. Nanoscale 2014, 6:3138-3142.
    • (2014) Nanoscale , vol.6 , pp. 3138-3142
    • Tao, H.1    Fan, L.Z.2    Song, W.L.3    Wu, M.4    He, X.5    Qu, X.6
  • 33
    • 84904575767 scopus 로고    scopus 로고
    • Tailoring the void size of iron oxideatcarbon yolk-shell structure for optimized lithium storage
    • Zhang H., Zhou L., Noonan O., Martin D., Whittaker A., Yu C. Tailoring the void size of iron oxideatcarbon yolk-shell structure for optimized lithium storage. Adv Funct Mater 2014, 24:4337-4342.
    • (2014) Adv Funct Mater , vol.24 , pp. 4337-4342
    • Zhang, H.1    Zhou, L.2    Noonan, O.3    Martin, D.4    Whittaker, A.5    Yu, C.6
  • 35
    • 84941066919 scopus 로고    scopus 로고
    • 2atcarbon hollow particles as an advanced anode material for lithium-ion batteries
    • 2atcarbon hollow particles as an advanced anode material for lithium-ion batteries. Angew Chem Int Ed 2014, 53:12803-12807.
    • (2014) Angew Chem Int Ed , vol.53 , pp. 12803-12807
    • Liang, J.1    Yu, X.2    Zhou, H.3    Wu, H.4    Ding, S.5    Lou, X.6
  • 36
    • 84887594217 scopus 로고    scopus 로고
    • Cu doped hollow structured manganese oxide mesocrystals with a controlled phase structure and morphology as anode materials for lithium ion battery with improved electrochemical performance
    • Li Q., Yin L., Li Z., Wang X., Ma J. Cu doped hollow structured manganese oxide mesocrystals with a controlled phase structure and morphology as anode materials for lithium ion battery with improved electrochemical performance. ACS Appl Mater Interf 2013, 5:10975-10984.
    • (2013) ACS Appl Mater Interf , vol.5 , pp. 10975-10984
    • Li, Q.1    Yin, L.2    Li, Z.3    Wang, X.4    Ma, J.5

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.