Author
Jose D. Giner
Bio: Jose D. Giner is an academic researcher. The author has contributed to research in topics: Proton exchange membrane fuel cell & Direct-ethanol fuel cell. The author has an hindex of 1, co-authored 1 publications receiving 19 citations.
Papers
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27 May 1987
TL;DR: In this article, a fuel cell comprising an anode, a cathode and an aqueous carbonate electrolyte, including means for feeding carbon dioxide to at least one of the anode and cathode during operation of the cell, is described.
Abstract: A fuel cell comprising an anode, a cathode and an aqueous carbonate electrolyte, and including means for feeding carbon dioxide to at least one of the anode and cathode during operation of the cell. The addition of carbon dioxide provides a higher current density at a working potential.
19 citations
Cited by
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22 Mar 2001TL;DR: In this article, carbon composite electrocatalyst powders have a well-controlled microstructure and morphology, and the method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature.
Abstract: Electrocatalyst powders and methods for producing electrocatalyst powders, such as carbon composite electrocatalyst powders. The powders have a well-controlled microstructure and morphology. The method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature, such as not greater than about 400° C.
271 citations
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08 Jun 2000TL;DR: Energy devices such as batteries and methods for fabricating the energy devices are small, thin and lightweight, yet provide sufficient power for many handheld electronics as discussed by the authors, and they can be used for many applications.
Abstract: Energy devices such as batteries and methods for fabricating the energy devices. The devices are small, thin and lightweight, yet provide sufficient power for many handheld electronics.
68 citations
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05 Aug 2002TL;DR: In this article, carbon composite electrocatalyst powders have a well-controlled microstructure and morphology, and the method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature.
Abstract: Electrocatalyst powders and methods for producing electrocatalyst powders, such as carbon composite electrocatalyst powders. The powders have a well-controlled microstructure and morphology. The method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature, such as not greater than about 400° C.
60 citations
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01 Aug 2002TL;DR: In this paper, carbon composite electrocatalyst powders have a well-controlled microstructure and morphology, and the method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature.
Abstract: Electrocatalyst powders and methods for producing electrocatalyst powders, such as carbon composite electrocatalyst powders. The powders have a well-controlled microstructure and morphology. The method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature, such as not greater than about 400° C.
51 citations
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01 Aug 2002TL;DR: In this article, carbon composite electrocatalyst powders have a well-controlled microstructure and morphology, and the method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature.
Abstract: Electrocatalyst powders and methods for producing electrocatalyst powders, such as carbon composite electrocatalyst powders. The powders have a well-controlled microstructure and morphology. The method includes forming the particles from an aerosol of precursors by heating the aerosol to a relatively low temperature, such as not greater than about 400° C.
27 citations