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Monash Fuels The Next Generation Of Hybrid Cars

Posted on: Saturday, 2 August 2008, 12:45 CDT

Monash University scientists have revolutionized the design of fuel cells used in the latest generation of hybrid cars which could make the vehicles more reliable and cheaper to build.

The breakthrough, published today in the journal Science, revolves around the design of a fuel cell in which a specially-coated form of popular hi tech outdoor and sporting clothing material Goretex® is the key component.

The team of Monash scientists have designed and tested an air-electrode, where a fine layer - just 0.4 of a micron thick, or about 100 times thinner than a human hair – of highly conductive plastic is deposited on the breathable fabric. The conductive plastic acts as both the fuel cell electrode and catalyst.

Monash University's Dr Bjorn Winther-Jensen said just as Goretex® had revolutionized the outdoor clothing industry, it could hold similar promise for motorists.

"The same way as waste vapor is drawn out of this material to make hikers more comfortable to less prone to hypothermia, so it is able to 'breathe' oxygen into our fuel cell and into contact with the conductive plastic," Dr Winter-Jensen said.

Monash University's Professor Doug MacFarlane from the Australian Centre for Electromaterials Science (ACES) said the discovery was probably the most important development in fuel cell technology in the last 20 years.

"The benefits for the motoring industry and for motorists are that the new design removes the need for platinum, which acts as the catalyst and is currently central to the manufacturing process," Professor MacFarlane said.

"Our reliance on platinum is making the likelihood of using fuel cells in everyday passenger cars, increasingly improbable.

"The cost of the platinum component alone of current fuel cells for a small car with a 100kW electric engine is more than the total cost of an 100kW gasoline engine. Also current annual world production of platinum is only sufficient for about 3 million 100kW vehicles, less than one-twentieth of the current annual global production of vehicles."

The new design fuel cell has been tested for periods of up to 1500 hours continuously using hydrogen as the fuel source.

Professor Maria Forsyth, Director of ACES at Monash said testing has shown no sign of material degradation or deterioration in performance. The tests also confirmed that oxygen conversion rates are comparable with platinum–catalyzed electrodes of the same geometry and found electrodes are not poisoned by carbon monoxide the way platinum is.

"The small amounts of carbon monoxide that are always present in exhausts from petrol engines are a real problem for fuel cells because the platinum catalyst is slowly poisoned, eventually destroying the cell, "Professor Forsyth said.

"The important point to stress is that the team has come up with an alternative fuel cell design that is more economical, more easily sourced, outlasts platinum cells and is just as effective."

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Image Caption: Flexible fuel cell. Photo courtesy of Julie Fraser, Faculty of Engineering.

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On the Net:

• Monash University
• Science
• Australian Centre for Electromaterials Science

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