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Brookhaven Lab Chemists Receive Patents for Fuel-Cell Catalysts

Source : Brookhaven National Laboratory

New catalysts reduce costly platinum use and increase its effectiveness in fuel cells

UPTON, NY — Chemists at the U.S. Department of Energy’s Brookhaven National Laboratory have received three patents for developing catalysts to accelerate chemical reactions in fuel cells. The newly patented catalysts, as well as a method for making a particular type of catalyst with a thin layer of platinum, could greatly reduce the cost and increase the use of fuel cells in electric vehicles. The catalysts and the technique are available for licensing.

Brookhaven Lab chemistsClick on the image to download a high-resolution version.(From left) Brookhaven Lab chemists Kotaro Sasaki, Miomir Branko Vukmirovic, and Radoslav Adzic work on developing catalysts for fuel cells.

Platinum is the most efficient catalyst for fuel cells. However, the platinum-based catalysts are expensive, unstable, and have low durability. The newly patented catalysts have high activity and stability, while containing much less platinum than the amount used in current fuel cells, so their cost is reduced.

“Fuel cells are expected to become a major source of clean energy that can impact both transportation and stationary power sectors,” said Radoslav Adzic, the principal researcher in all three patents. “They have several advantages for automotive applications and can be used extensively in electric cars if the technology can be made to work efficiently and economically. Developing these electrocatalysts is a big step in that direction.”

Several types of renewable fuel – such as hydrogen, ethanol or methanol – may be used in fuel cells. A hydrogen fuel cell, for example, converts hydrogen and oxygen into water, and, in the process, produces electricity. Hydrogen is oxidized by separating into negatively charged electrons and positively charged ions with the help of a catalyst at the fuel cell’s negative pole, the anode. Electrons then travel to the positive pole, the cathode, creating electricity with their movement. At the cathode, with the aid of a catalyst, oxygen gains electrons, resulting in oxygen reduction, and combines with hydrogen ions forming water, the only byproduct of a hydrogen/oxygen fuel cell.

Two of the Brookhaven chemists’ patents were awarded for catalysts that speed up oxygen reduction. One is composed of a thin layer of platinum on palladium nanoparticles, which is more efficient than current catalysts. The other includes metal oxides, such as niobium oxide and ruthenium oxide, with a thin layer of platinum. The patent also covers a unique method for depositing a thin layer of platinum on the metal-oxide catalysts.

Compared to the patented platinum-palladium catalyst, the metal oxides combined with platinum are more stable and cost-effective, although the catalytic efficiency is not as high. Thus, the patented catalysts are complementary and can be tailored for various applications.

The scientists also received a patent for adding gold clusters to platinum-based catalysts. In the reactions during the stop-and-go driving of an electric car, platinum dissolves, which reduces its efficiency as a catalyst. But the researchers have overcome this problem by adding a very small amount of gold to the platinum-based catalyst. With the addition of gold, the platinum was kept intact during an accelerated stability test, which mimicked the stop-and-go conditions of an electric car. The gold clusters protected the platinum from being oxidized, which stabilized the platinum, making possible improved platinum-based catalysts.

U.S. patent 7,691,780 B2 for the development of platinum-palladium catalysts, was issued to Brookhaven Lab’s Adzic and Miomir Branko Vukmirovic, along with Junliang Zhang and Yibo Mo, formerly of Brookhaven. Adzic, Vukmirovic and Kotaro Sasaki of Brookhaven Lab received title to U.S. patent 7,704,918 for metal oxide-platinum catalysts and their unique method of making them. Adzic and Zhang received U.S. patent 7,704,919 for adding gold clusters to platinum-based electrocatalysts.

The Department of Energy’s Office of Science and its Office of Energy Efficiency and Renewable Energy funded the research that led to these patented technologies. For information about licensing them, contact Kimberley Elcess at 631 344-4151, or elcess@bnl.gov.

May 20, 2010 - 12:23 PM No Comments

State among top 5 in fuel cells

Source : NewsTimes.com

Michael C. Juliano, Staff Writer
  • Paul Oei, Vice President of the Service Group of Fuel Cell Energy Inc. in Danbury stands with a Fuel cell being readied for delivery to a customer. FuelCell Energy will install four 1.4 megawatt fuel cell power plants at four state universities in California — CSU-East Bay, San Fran State, CSU-San Bernardino and CSU-Long Beach. Photo: ST, David W. Harple / CT

Connecticut may one day be called the Fuel Cell State.

Fuel Cells 2000, a Washington-based advocacy group for the fuel cell industry, has recognized the state as one of the “Top Five Fuel Cell States” in a new report for being home to several major fuel cell manufacturers, having high-profile fuel cell installations and offering substantial financial support for fuel cell power generation.

“If you listed the major fuel cell companies in the United States, you’d find that most of them are in Connecticut,” said Jennifer Gangi, program director for Fuel Cells 2000. “It gives a lot of hope to U.S. manufacturing and green manufacturing jobs.”

Gangi said the state has about a dozen fuel cell manufacturers and designers, including two of the largest commercial producers — FuelCell Energy Inc. in Danbury and UTC Power in South Windsor.

“Connecticut is a world leader in fuel cell manufacturing,” she said.

Other fuel cell manufacturers in Connecticut include Proton Energy Systems in Wallingford and Infinity Fuel Cell and Hydrogen LLC in Windsor.

The state also has as many as 60 companies involved in the design of fuel cell components, such as Fuel Cell Perspectives in Hartford, said Joel Reinbold, chairman of the Connecticut Hydrogen-Fuel Cell Coalition.

“They’re very directly related to the fuel cell industry,” Reinbold said, adding that about 13 percent of the industry’s jobs worldwide — about 3,000 positions — are in Connecticut. “If there’s a large stationary fuel cell installation somewhere in the world, it was probably made in Connecticut,” he said. “That’s a claim to fame you can’t walk away from.”

Direct FuelCell power plants developed by FuelCell Energy, which was founded in 1969 as Energy Research Corp., have generated more than 400 million kilowatt hours of electricity. FuelCell Energy has more than 55 installations worldwide.

“Connecticut recognizes that fuel cells can be a major part of addressing the world’s energy issues,” said Joseph Mahler, senior vice president and chief financial officer of FuelCell Energy. “Fuel cells produce reliable, base-load electricity more efficiently and cleanly than other technologies.”

Large fuel cell installations in Connecticut include the Connecticut Science Center in Hartford, Cabela’s Sporting Goods in East Hartford, Pepperidge Farm Bakery in Glastonbury and Eastern Connecticut State University in Willimantic.

Most state funding for fuel cell installations comes from the Connecticut Clean Energy Fund, Reinbold said.

The four other states in the top five are, in alphabetical order, California, New York, Ohio and South Carolina.

California is recognized for strong support of fuel cell power generation using renewable fuels and New York has a long history of support for fuel cell research and deployment, according to Fuel Cells 2000. South Carolina universities are collaborating on an aggressive economic development program and activism in forklift demonstrations.

May 20, 2010 - 6:24 AM No Comments