A silicon-based micro direct methanol fuel cell for portable applications has been fabricated and its electrochemical characterization carried out. A membrane-electrode assembly (MEA) was specially fabricated to mitigate methanol crossover. The cell with active area of demonstrated a maximum power density of at . Since the silicon wafer is too fragile to compress for sealing, and a thicker layer of gold has to be coated on the silicon wafer to reduce contact resistance, further development of micro DMFCs for high power application was carried out using stainless steel as bipolar plate in which flow channels were fabricated by photochemical etching technology. The maximum power density of the micro DMFC reaches at and at with atmospheric pressure. An 8-cell air-breathing DMFC stack has been developed. Mass transport phenomena such as water transport and oxygen transport were investigated. By using a water management technique, cathode flooding was avoided in our air-breathing DMFC stack. Furthermore, it was found that oxygen transport in the air-breathing cathode is still very efficient. The DMFC stack produced a maximum output power of at at room temperature, corresponding to a power density of . A passive DMFC using pure methanol was demonstrated with steady-state output power of over more than without heat management.
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e-mail: gul2@psu.edu
e-mail: cxw31@psu.edu
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May 2006
This article was originally published in
Journal of Fuel Cell Science and Technology
Research Papers
Development of High Performance Micro DMFCS and a DMFC Stack
G. Q. Lu,
G. Q. Lu
Electrochemical Engine Center (ECEC) and Department of Mechanical and Nuclear Engineering,
e-mail: gul2@psu.edu
The Pennsylvania State University
, University Park, PA 16802
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C. Y. Wang
C. Y. Wang
Electrochemical Engine Center (ECEC) and Department of Mechanical and Nuclear Engineering,
e-mail: cxw31@psu.edu
The Pennsylvania State University
, University Park, PA 16802
Search for other works by this author on:
G. Q. Lu
Electrochemical Engine Center (ECEC) and Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University
, University Park, PA 16802e-mail: gul2@psu.edu
C. Y. Wang
Electrochemical Engine Center (ECEC) and Department of Mechanical and Nuclear Engineering,
The Pennsylvania State University
, University Park, PA 16802e-mail: cxw31@psu.edu
J. Fuel Cell Sci. Technol. May 2006, 3(2): 131-136 (6 pages)
Published Online: November 30, 2005
Article history
Received:
July 18, 2005
Revised:
November 30, 2005
Citation
Lu, G. Q., and Wang, C. Y. (November 30, 2005). "Development of High Performance Micro DMFCS and a DMFC Stack." ASME. J. Fuel Cell Sci. Technol. May 2006; 3(2): 131–136. https://doi.org/10.1115/1.2173668
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