This invention incorporates an innovative membraneless design with other specialized ancillary technologies that simplify the device and enable that the whole fuel-cell system to be miniaturized to the millimeter scale. Where most fuel cells require ancillary fuel and oxidant pumps, this invention incorporates a previously developed self-pumping mechanism that uses bubbles to move these fluids through its channels. The self-regulating nature of the system enhances fuel utilization, since the pumping rate of the fuel is automatically adjusted according to the applied electrical load. The pumping stops when the external electric load is removed. Additionally, lack of ancillary parts keeps the fuel cell efficient by not consuming the produced energy to run the ancillary parts. Because the system was essentially designed like a solid-state device, it is scalable to large systems and mass production.

The capability to simplify the device (and reduce conventional problems with fuel cells) without sacrificing the output power of existing fuel cells is attractive because it solves the main drawbacks of fuel cells when compared against batteries as miniature power sources.

File Number: 22145 

Web site: http://techtransfer.universityofcalifornia.edu/...

Other Information:

Summary
Researchers at UCLA have developed a miniaturized membraneless fuel-cell system where the whole system can be reduced down to the millimeter scale without sacrificing output power.