Abstract

We have been exploring a general route for preparing nanomaterials called "template synthesis." The application of the template method to the preparation of microtubular battery electrodes is described here. The template method is used to prepare a current collector that consists of an ensemble of metal microtubules that protrude from a metal surface like the bristles of a brush. Chemical vapor deposition is then used to coat this high surface area microtubule‐based current collector with a thin skin of the desired ‐intercalation material, in this case . In this way, a thin‐walled tubule of is formed on the outer surface of each metal microtubule. The thin walls of these tubes insure that the distance over which must diffuse is small, and the high surface area insures that the current density is low. These microtubular electrodes showed higher capacities, lower resistance, and lower susceptibility to slow electron transfer kinetics than thin film (control) electrodes prepared from the same amount of .

Keywords

ElectrodeMaterials scienceIntercalation (chemistry)Chemical vapor depositionNanotechnologyBattery (electricity)Thin filmTemplate method patternMetalNanomaterialsDeposition (geology)Chemical engineeringChemistryInorganic chemistry

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Publication Info

Year
1997
Type
article
Volume
144
Issue
12
Pages
4296-4302
Citations
102
Access
Closed

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Guangli Che, Kshama B. Jirage, Ellen R. Fisher et al. (1997). Chemical‐Vapor Deposition‐Based Template Synthesis of Microtubular TiS2 Battery Electrodes. Journal of The Electrochemical Society , 144 (12) , 4296-4302. https://doi.org/10.1149/1.1838181

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DOI
10.1149/1.1838181