Rapid Screening of Micro Fuel Cells for Portable Electronics PIs: Li Tan, Engineering Mechanics...
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![Page 1: Rapid Screening of Micro Fuel Cells for Portable Electronics PIs: Li Tan, Engineering Mechanics Zhaoyan Zhang, Mechanical Engineering University of Nebraska,](https://reader035.fdocuments.in/reader035/viewer/2022062518/56649d5e5503460f94a3e772/html5/thumbnails/1.jpg)
Rapid Screening of Micro Fuel Cells for Portable Electronics
PIs: Li Tan, Engineering Mechanics
Zhaoyan Zhang, Mechanical Engineering
University of Nebraska, Lincoln, NE
10/01/07
![Page 2: Rapid Screening of Micro Fuel Cells for Portable Electronics PIs: Li Tan, Engineering Mechanics Zhaoyan Zhang, Mechanical Engineering University of Nebraska,](https://reader035.fdocuments.in/reader035/viewer/2022062518/56649d5e5503460f94a3e772/html5/thumbnails/2.jpg)
11/01/06-04/30/07 (also seen in previous report)• Completed geometry and width design for micrometer channels;• Started modeling aspects of micro fuel cells;• Completed fabrication of individual channels with photolithography;• Completed fabrication of micro fuel cell testing array;• Completed fabrication of a testing sample with 4 cells.
05/01/07-09/30/07Fabrication of micro fuel cell arrays• Completed design of micro fuel cell arrays (88 cells);• Completed design/fabrication of three masks for micro channels, inlet/outlet, and electrodes;• Completed fabrication of micro channel arrays (44 cells) on Pyrex glass (1/4 wafer);• Completed fabrication of inlet/outlet on Pyrex.
Performance of Single Fuel Cell• Two different electrolyte membranes (Nafion 117 and 202) were explored.
A novel concept on electrocatalyst support • Initiated a methodology to integrate nanoparticles into fuel cell research.
Research Progress(11/01/06-09/30/07)
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Completed 88 Fuel Cell MasksMask I: in/outlets
Channel 3
Mask III: Electrodes
Fabricated In/outlets
Mask II: Flow Channels
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Completed Fuel Cell Array (44)
100 um
Pyrex
Mask 2
UV
Pyrex
Pyrex
AuCr
photoresist
Au etching
Cr etching
HF etching
Remove photoresist and Au/Cr
Pho
tore
sist
Chr
omiu
m/G
old
4.8
– 49
wt%
HF
etc
hing
Fuel Cell Array Fabrication Process Flow
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• 22 array was used as a base for fuel cell• Two conducting membranes with different thicknesses were tested:
– Nafion® 117 – 183m– Nafion® 212 – 51m
• Nafion® 212 presented better efficiency, as expected due to its thinner nature.
Experimental Measurements of Single Fuel Cell
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Nanoparticle (0 dimension)
MicroFiber (1 dimension)
Packed Particles (80 nm)
Uniform 1.5 m
Fiber
Motivation: The surface areas of current catalyst supports are low, challenging to improve the fuel cell performance.
Aim: 3D nanoporous catalyst support.
A Novel Electrocatalyst Support
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Summary and Future Work
Confirmed (05/01/07-09/30/07):Fabrication of micro fuel cell arrays• Completed design of micro fuel cell arrays (88 cells);• Completed design/fabrication of three masks for micro channels, inlet/outlet, and
electrodes;• Completed fabrication of micro channel arrays (44 cells) on Pyrex glass (1/4 wafer);• Completed fabrication of inlet/outlet on Pyrex.Performance of Single Fuel Cell• Two different electrolyte membranes (Nafion 117 and 202) were tested.A novel concept on electrocatalyst support • Initiated a methodology to integrate nanoparticles into fuel cell research.
Work Plan (10/01/07-04/30/08):• Explore optimum conditions for fuel cell operation• Prepare a complete micro fuel cell array (88 cells) on Pyrex wafer (d~4”);• Align and integrate in/outlets with flow channels and electrodes;• Explore funding opportunities for the novel electrocatalyst support;• Initiate I-V test for 64-cell.