对五种掺杂型炭材料的结构特征及其在锂离子电池中的嵌入机理作一综述。同时提出,除了炭材料的改性以外,硼、硅、磷和矾等四种元素在炭材料中的掺杂也将是未来锂离子电池发展的方向。
The structural properties of five kinds of doped-carbons andtheir intercalation mechanisms in Lithium-Ion batteries were summarized. In addition, we draw the conclusion that besides the treatments of carbon materials, the carbon materials doped with boron, silicon, phosphorus and vanadium were also promising for Lithium-ion batteries in the future.
参考文献
| [1] | Zheng T.;Fuller EW.;Tseng S.;Vonsacken U.;Dahn JR.;Liu YH. .LITHIUM INSERTION IN HIGH CAPACITY CARBONACEOUS MATERIALS[J].Journal of the Electrochemical Society,1995(8):2581-2590. |
| [2] | E. Buiel;A. E. George;J. R. Dahn .On the reduction of lithium insertion capacity in hard-carbon anode materials with increasing heat-treatment temperature[J].Journal of the Electrochemical Society,1998(7):2252-2257. |
| [3] | Inaba M.;Ogumi Z.;Yoshida H. .IN SITU RAMAN STUDY OF ELECTROCHEMICAL LITHIUM INSERTION INTO MESOCARBON MICROBEADS HEAT-TREATED AT VARIOUS TEMPERATURE[J].Journal of the Electrochemical Society,1996(8):2572-2578. |
| [4] | Mabuchi A.;Fujimoto H.;Kasuh T.;Tokumitsu K. .CHARGE-DISCHARGE CHARACTERISTICS OF THE MESOCARBON MICROBEADS HEAT-TREATED AT DIFFERENT TEMPERATURES[J].Journal of the Electrochemical Society,1995(4):1041-1046. |
| [5] | Takami N.;Hara M.;Ohsaki T.;Satoh A. .RECHARGEABLE LITHIUM-ION CELLS USING GRAPHITIZED MESOPHASE-PITCH-BASED CARBON FIBER ANODES[J].Journal of the Electrochemical Society,1995(8):2564-2571. |
| [6] | Lowell C E .Solid solution of boron in graphite[J].Journal of the American Ceramic Society,1967,50(03):142-144. |
| [7] | Turnbull J A;Stagg M S;Eeles W T .Annealing studies of boron-doped graphite by electron microscopy and X-ray diffraction[J].CARBON,1966,3:387-392. |
| [8] | Way B M;Dahn J R .The effect of boron substitution in carbon on the intercalation of lithium in Lix(BxC1-x)6[J].Journal of the Electrochemical Society,1994,141(04):907-912. |
| [9] | Wilson AM.;Dahn JR. .LITHIUM INSERTION IN CARBONS CONTAINING NANODISPERSED SILICON[J].Journal of the Electrochemical Society,1995(2):326-332. |
| [10] | Omaru A;Azuma H;White R E.Study of phosphorus containing carbonaceous materials for an anode of lithium secondary batteries[A].Toronto,ON Canada,1992:34. |
| [11] | Tran T D;Feikert J H;Song X et al.Lithium insertion in ball-milled graphite[J].Journal of the Electrochemical Society,1995,142(06):3297-3304. |
| [12] | Mohri M;Shi H;Barker J et al.Lithium transport through graphite electrodes that contain two stage phases[J].Journal of Power Sources,1998,70:34-39. |
| [13] | Nagaura T;Tatsumi K;Sakaebe N et al.Electrochemical deposition of very smooth lithium using nonaqueous electrolytes containing HF[J].Journal of the Electrochemical Society,1991,138(02):243-248. |
| [14] | OH S;Rodriquez N.Raman spectrum of graphite[J].Journal of Materials Research,1993(08):2879-2885. |
| [15] | Weydanz W J;Way B M;Dahn J R et al.Behavior of nitrogen-substituted carbon (NzC1-z)6 in Li/Li(NC) cells[J].Journal of the Electrochemical Society,1994,141(04):900-907. |
| [16] | ENDO M;Okada Y;Nakamura H .Performance of lithium/V2O5 xerogel coin cells[J].Synthetic Metals,1989,34:739-743. |
| [17] | IMANISHI N;Kashiwagi H;Ichikawa T et al.Electrochemical intercalation of lithium-ion into graphite[J].Journal of the Electrochemical Society,1993,140(02):315-321. |
| [18] | Wu Y P;Fang S B;Ju W G et al.Improving the electrochemical properties of carbon anodes in lithium secondary batteries[J].Journal of Power Sources,1998,70:114-117. |
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