Carbon film covering originated from fullerene C sub(60) on the surface of lithium metal anode for lithium secondary batteries
Carbon films from fullerene C sub(60) were coated on the surface of lithium metal for the anode of lithium secondary battery. In order to investigate the relationship between the electrochemical characteristics of the carbon films and deposition technique, three different vacuum techniques were empl...
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| Veröffentlicht in: | Journal of electroceramics 2009-10, Vol.23 (2-4), p.248-253 |
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| container_end_page | 253 |
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| container_issue | 2-4 |
| container_start_page | 248 |
| container_title | Journal of electroceramics |
| container_volume | 23 |
| creator | Arie, Arenst Andreas Vovk, Oleg M Song, Jin O Cho, Byung Won Lee, Joong Kee |
| description | Carbon films from fullerene C sub(60) were coated on the surface of lithium metal for the anode of lithium secondary battery. In order to investigate the relationship between the electrochemical characteristics of the carbon films and deposition technique, three different vacuum techniques were employed such as RF (radio frequency)-magnetron sputtering of C sub(60), plasma assisted thermal evaporation of C sub(60) and ion beam assisted thermal evaporation of fullerene C sub(60). From the physical and chemical characterization tests, we found that the carbon films produced by those above techniques mainly consist of sp super(2)/sp super(3) hybridized amorphous carbons. Electrochemical tests implied that the cyclic performance was enhanced by the fullerene C sub(60) coating on lithium metal anode in comparison to the pure lithium metal one. This enhanced performance is due to the formation of thin carbon film on the surface of lithium metal anode which plays a role as a passive layer against the side reaction between lithium metal and the electrolyte. |
| doi_str_mv | 10.1007/s10832-008-9413-6 |
| format | Article |
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In order to investigate the relationship between the electrochemical characteristics of the carbon films and deposition technique, three different vacuum techniques were employed such as RF (radio frequency)-magnetron sputtering of C sub(60), plasma assisted thermal evaporation of C sub(60) and ion beam assisted thermal evaporation of fullerene C sub(60). From the physical and chemical characterization tests, we found that the carbon films produced by those above techniques mainly consist of sp super(2)/sp super(3) hybridized amorphous carbons. Electrochemical tests implied that the cyclic performance was enhanced by the fullerene C sub(60) coating on lithium metal anode in comparison to the pure lithium metal one. 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In order to investigate the relationship between the electrochemical characteristics of the carbon films and deposition technique, three different vacuum techniques were employed such as RF (radio frequency)-magnetron sputtering of C sub(60), plasma assisted thermal evaporation of C sub(60) and ion beam assisted thermal evaporation of fullerene C sub(60). From the physical and chemical characterization tests, we found that the carbon films produced by those above techniques mainly consist of sp super(2)/sp super(3) hybridized amorphous carbons. Electrochemical tests implied that the cyclic performance was enhanced by the fullerene C sub(60) coating on lithium metal anode in comparison to the pure lithium metal one. 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In order to investigate the relationship between the electrochemical characteristics of the carbon films and deposition technique, three different vacuum techniques were employed such as RF (radio frequency)-magnetron sputtering of C sub(60), plasma assisted thermal evaporation of C sub(60) and ion beam assisted thermal evaporation of fullerene C sub(60). From the physical and chemical characterization tests, we found that the carbon films produced by those above techniques mainly consist of sp super(2)/sp super(3) hybridized amorphous carbons. Electrochemical tests implied that the cyclic performance was enhanced by the fullerene C sub(60) coating on lithium metal anode in comparison to the pure lithium metal one. This enhanced performance is due to the formation of thin carbon film on the surface of lithium metal anode which plays a role as a passive layer against the side reaction between lithium metal and the electrolyte.</abstract><doi>10.1007/s10832-008-9413-6</doi></addata></record> |
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| ispartof | Journal of electroceramics, 2009-10, Vol.23 (2-4), p.248-253 |
| issn | 1385-3449 1573-8663 |
| language | eng |
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| source | SpringerLink Journals - AutoHoldings |
| subjects | Anodes Buckminsterfullerene Carbon Evaporation Fullerenes Lithium Performance enhancement Storage batteries |
| title | Carbon film covering originated from fullerene C sub(60) on the surface of lithium metal anode for lithium secondary batteries |
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