Method of manufacturing a planar electrode with large surface area
A method for fabricating a pair of large surface area planar electrodes. The method includes forming a first template above a first substrate, the first template having a first plurality of pores, coating the first plurality of pores of the first template with a first layer of conducting material to...
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| Main Authors | , , , |
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| Format | Patent |
| Language | English |
| Published |
27.11.2012
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| Online Access | Get full text |
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| Abstract | A method for fabricating a pair of large surface area planar electrodes. The method includes forming a first template above a first substrate, the first template having a first plurality of pores, coating the first plurality of pores of the first template with a first layer of conducting material to form a first electrode, placing the first plurality of pores of the first electrode in proximity to a second electrode, thereby forming a gap between the first plurality of pores and the second electrode, and filling the gap with an electrolyte material. |
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| AbstractList | A method for fabricating a pair of large surface area planar electrodes. The method includes forming a first template above a first substrate, the first template having a first plurality of pores, coating the first plurality of pores of the first template with a first layer of conducting material to form a first electrode, placing the first plurality of pores of the first electrode in proximity to a second electrode, thereby forming a gap between the first plurality of pores and the second electrode, and filling the gap with an electrolyte material. |
| Author | Chen, Po-Jui Liger, Matthieu Yama, Gary Illing, Matthias |
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| References | Asoh et al., Conditions for Fabrication of Ideally Ordered Anodic Porous Alumina Using Pretexured A1, Journal of the Electrochemical Society, 2001, B152-B156, 148 (4), ECS, Japan, 5 pages. Obreja, On the performance of supercapacitors with electrodes based on carbon nanotubes and carbon activated material-A Review, Physica E, 2008, pp. 2596-2605, No. 40, Elsevier B.V., Romania. Hendren et al., Fabrication and optical properties of gold nanotube arrays, Journal of Physics: Condensed Matter, 2008, pp. 1-5, vol. 20, IOP Publishing Ltd., UK, 5 pages. Asano et al. (2006/0234505) 20061000 Chan et al., High-performance lithium battery anodes using silicon nanowires, Nature Nanotechnology, Jan. 2008, pp. 31-35, vol. 3, Nature Publishing Group, USA, 5 pages. Lee et al., Layer-by-Layer Assembly of All Carbon Nanotube Ultrathin Films for Electrochemical Applications, Journal of the American Chemical Society, Sep. 8, 2008, Cambridge, ACS Publications, 10 pages. Cheung et al., Impedance Spectroscopy Flow Cytometry: On-Chip Label-Free Cell Differentiation, Cytometry, 2005, pp. Part A 65A:124-132, Wiley-Liss, Inc., 9 pages. Zheng et al., Micro coulter counters with platinum black electroplated electrodes for human blood cell sensing, Biomed Microdevices, 2008, pp. 10:221-231, Springer Science, U.S., 11 pages. Qu et al., Studies of activated carbons used in double-layer capacitors, Journal of Power Sources, 1998, pp. 99-107, No. 74, Elsevier Science S.A., Canada. Jiang et al., Planar MEMS Supercapacitor Using Carbon Nanotube Forests, Mechanical Engineering Department, University of California, Berkeley, CA, undated, 4 pages. Beckman Coulter, Inc., Introducing the MultisizerTM 3 Coulter Counter (Reg. U.S. Pat. & Tm. Off.), The Beckman Coulter Technology Center, 12 pages. Evans et al., Growth and properties of gold and nickel nanorods in thin film alumina, Nanotechnology, 2006, pp. 5746-5753, vol. 17, IOP Publishing Ltd., UK, 8 pages. Gawad et al., Micromachined impedence spectroscopy flow cytometer for cell analysis and particle sizing, Lab on a Chip, 2001, pp. 76-82, vol. 1, RSC Publishing, Switzerland, 7 pages. Banerjee et al., Nanotubular metal-insulator-metal capacitor arrays for energy storage, nature nanotechnology, Mar. 2009, pp. 1-5, Macmillan Publishers, 5 pages. Banerjee et al., Nanotubular metal-insulator-metal capacitor arrays for energy storage, Nature Nanotechnology, Mar. 15, 2009, pp. 1-5, No. 37, Macmillan Publishers Limited, U.S.A. Leskala et al., Atomic Layer Deposition Chemistry: Recent Developments and Future Challenges, Angewandte Chemie International Edition, 2003, pp. 5548-5554, vol. 42, Wiley-VCH Verlag GmbH & Co., Germany, 7 pages. |
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