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Embodiment of CNT Battery
By | April 14, 2009
There are three possible embodiments as follows.
1. A Carbon-based Nanotube (CNT) battery comprises of a battery cell trough, electrolyte, a spring coil, an anode/cathode substrate plate and its separation membrane 40, and external positive and negative terminals. The anode substrate plate is composed of an aluminum plate and an active Carbon Nanofiber layer. Negative terminal plate is composed of a copper plate and an active Carbon Nanofiber layer. The individual tube diameter of the Carbon Nanofiber layer is 20 nm, with the length of 290 nm. There exists a gap in between each set of the substrate plate and its separation membrane 40, forming the capacity-like functionality having an equivalent effect as a parallel connection of a battery and a capacitor. The separation membrane is made by high-molecule, high-insulation cloth, with the size of the battery inner trough. Said Carbon-based Nanotube (CNT) battery is able to allow high current recharging/discharging process, with 1/17 charging time than before. The power ratio is 8 times higher than lead-based batteries. The weight of the battery is dramatically reduced.
2. A Carbon-based Nanotube (CNT) battery comprises of a battery cell trough, electrolyte, a spring coil, an anode/cathode substrate plate and its separation membrane, and external positive and negative terminals. The anode substrate plate is composed of an aluminum plate and an active Carbon Nanofiber layer. Negative terminal plate is composed of a copper plate and an active Carbon Nanofiber layer. The individual tube diameter of the Carbon Nanofiber layer is 80 nm, with the length of 300 nm. Same as embodiment 1, said Carbon-based Nanotube (CNT) battery is able to allow high current recharging/discharging process, with 1/10 charging time than before. The power ratio is 8 times higher than lead-based batteries. The weight of the battery is dramatically reduced.
3. A Carbon-based Nanotube (CNT) battery comprises of a battery cell trough, electrolyte, a spring coil, an anode/cathode substrate plate and its separation membrane, and external positive and negative terminals. The anode substrate plate is composed of an aluminum plate and an active Carbon Nanofiber layer. Negative terminal plate is composed of a copper plate and an active Carbon Nanofiber layer. The individual tube diameter of the Carbon Nanofiber layer is 60 nm, with the length of 200 nm. Same as embodiment 1, said Carbon-based Nanotube (CNT) battery is able to allow high current recharging/discharging process, with 1/20 charging lime than before. The power ratio is 10 times higher than lead-based batteries. The weight of the battery is dramatically reduced.
Topics: carbon nano tube battery | 1 Comment »
June 8th, 2009 at 7:32 pm
Everytime a discharge or recharge of an electrical source; their is heat created. How do you keep the multiple sheets of nanotube batteries from having a thermal event?