Effective and Low-Cost Platinum Electrodes for Microbial Fuel Cells Deposited by Electron Beam Evaporation

A microbial fuel cell (MFC) is a device that converts chemical energy to electrical energy through the catalytic reaction of microorganisms. In this paper, electricity generation was investigated in microbial fuel cells using e-beam deposited Pt electrodes to improve efficiency and minimize Pt loadi...

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Veröffentlicht in:	Energy & fuels 2007-09, Vol.21 (5), p.2984-2990
Hauptverfasser:	Park, Ho Il, Mushtaq, Usman, Perello, David, Lee, Innam, Cho, Sung Kwon, Star, Alexander, Yun, Minhee
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Schlagworte:	Applied sciences Energy Energy. Thermal use of fuels Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cells
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container_issue	5
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container_title	Energy & fuels
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creator	Park, Ho Il Mushtaq, Usman Perello, David Lee, Innam Cho, Sung Kwon Star, Alexander Yun, Minhee
description	A microbial fuel cell (MFC) is a device that converts chemical energy to electrical energy through the catalytic reaction of microorganisms. In this paper, electricity generation was investigated in microbial fuel cells using e-beam deposited Pt electrodes to improve efficiency and minimize Pt loading. We deposited Pt on carbon paper electrodes using an e-beam evaporator and imaged microscopic structures of the Pt deposited electrodes using scanning electron microscopy and atomic force microscopy. Although the e-beam electrode had the least thick Pt layer (1000 Å) among many tested electrode types (Pt-black = 1500 Å and commercial electrode = 2500 Å), it showed excellent coverage and Pt uniformity, resulting in minimal loading of Pt. In MFC testing, the e-beam Pt electrode installed only on the anode (carbon paper electrode on the cathode) produced the highest peak value of 0.42 A/m2 in the current density, which was about 2 times higher than when the Pt-black anode electrode or E-Tek commercial Pt anode electrode was used. After 45 h of microbial fuel cell running with the Pt electrode on the anode, the carbon electrode on the cathode was also replaced with an e-beam electrode. This replacement generated an immediate rise in current density, reaching a second peak of 0.50 A/m2. Considering the mass-specific current density, which represents the current density per unit Pt thickness, the e-beam electrode was the most effective with minimal Pt loading. The mass-specific current density for the e-beam electrodes was 2.5 times higher than that for the E-Tek commercial electrodes. These promising results suggest the high potential of e-beam-deposited Pt electrodes in improving microbial fuel cell efficiency with minimal Pt loading.
doi_str_mv	10.1021/ef070160x
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In this paper, electricity generation was investigated in microbial fuel cells using e-beam deposited Pt electrodes to improve efficiency and minimize Pt loading. We deposited Pt on carbon paper electrodes using an e-beam evaporator and imaged microscopic structures of the Pt deposited electrodes using scanning electron microscopy and atomic force microscopy. Although the e-beam electrode had the least thick Pt layer (1000 Å) among many tested electrode types (Pt-black = 1500 Å and commercial electrode = 2500 Å), it showed excellent coverage and Pt uniformity, resulting in minimal loading of Pt. In MFC testing, the e-beam Pt electrode installed only on the anode (carbon paper electrode on the cathode) produced the highest peak value of 0.42 A/m2 in the current density, which was about 2 times higher than when the Pt-black anode electrode or E-Tek commercial Pt anode electrode was used. After 45 h of microbial fuel cell running with the Pt electrode on the anode, the carbon electrode on the cathode was also replaced with an e-beam electrode. This replacement generated an immediate rise in current density, reaching a second peak of 0.50 A/m2. Considering the mass-specific current density, which represents the current density per unit Pt thickness, the e-beam electrode was the most effective with minimal Pt loading. The mass-specific current density for the e-beam electrodes was 2.5 times higher than that for the E-Tek commercial electrodes. 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In this paper, electricity generation was investigated in microbial fuel cells using e-beam deposited Pt electrodes to improve efficiency and minimize Pt loading. We deposited Pt on carbon paper electrodes using an e-beam evaporator and imaged microscopic structures of the Pt deposited electrodes using scanning electron microscopy and atomic force microscopy. Although the e-beam electrode had the least thick Pt layer (1000 Å) among many tested electrode types (Pt-black = 1500 Å and commercial electrode = 2500 Å), it showed excellent coverage and Pt uniformity, resulting in minimal loading of Pt. In MFC testing, the e-beam Pt electrode installed only on the anode (carbon paper electrode on the cathode) produced the highest peak value of 0.42 A/m2 in the current density, which was about 2 times higher than when the Pt-black anode electrode or E-Tek commercial Pt anode electrode was used. After 45 h of microbial fuel cell running with the Pt electrode on the anode, the carbon electrode on the cathode was also replaced with an e-beam electrode. This replacement generated an immediate rise in current density, reaching a second peak of 0.50 A/m2. Considering the mass-specific current density, which represents the current density per unit Pt thickness, the e-beam electrode was the most effective with minimal Pt loading. The mass-specific current density for the e-beam electrodes was 2.5 times higher than that for the E-Tek commercial electrodes. These promising results suggest the high potential of e-beam-deposited Pt electrodes in improving microbial fuel cell efficiency with minimal Pt loading.</description><subject>Applied sciences</subject><subject>Energy</subject><subject>Energy. 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title	Effective and Low-Cost Platinum Electrodes for Microbial Fuel Cells Deposited by Electron Beam Evaporation
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