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UCLA, University of Michigan Chemists Report Progress in Quest to Use Hydrogen as Fuel for Cars and Electronic Devices
March 08, 2006Chemists at UCLA and the University of Michigan report an advance toward the goal of cars that run on hydrogen rather than gasoline. While the U.S. Department of Energy estimates that practical hydrogen fuel will require concentrations of at least 6.5 percent, the chemists have achieved concentrations of 7.5 percent - nearly three times as much as has been reported previously - but at a very low temperature (77 degrees Kelvin).
The research, scheduled to be published in late March in the Journal of the American Chemical Society, could lead to a hydrogen fuel that powers not only cars, but laptop computers, cellular phones, digital cameras and other electronic devices as well.
"We have a class of materials in which we can change the components nearly at will," said Omar Yaghi, UCLA professor of chemistry, who conducted the research with colleagues at the University of Michigan. "There is no other class of materials where one can do that. The exciting discovery we are reporting is that, using a new material, we have identified a clear path for how to get above seven percent of the material's weight in hydrogen."
The materials, which Yaghi invented in the early 1990s, are called metal-organic frameworks (MOFs), pronounced "moffs," which are like scaffolds made of linked rods - a structure that maximizes the surface area. MOFs, which have been described as crystal sponges, have pores, openings on the nanoscale in which Yaghi and his colleagues can store gases that are usually difficult to store and transport. MOFs can be made highly porous to increase their storage capacity; one gram of a MOF has the surface area of a football field! Yaghi's laboratory has made more than 500 MOFs, with a variety of properties and structures.
"We have achieved 7.5 percent hydrogen; we want to achieve this percent at ambient temperatures," said Yaghi, a member of the California NanoSystems Institute. "We can store significantly more hydrogen with the MOF material than without the MOF."
MOFs can be made from low-cost ingredients, such as zinc oxide - a common ingredient in sunscreen - and terephthalate, which is found in plastic soda bottles.
"MOFs will have many applications. Molecules can go in and out of them unobstructed. We can make polymers inside the pores with well-defined and predictable properties. There is no limit to what structures we can get, and thus no limit to the applications."
In the push to develop hydrogen fuel cells to power cars, cell phones and other devices, one of the biggest challenges has been finding ways to store large amounts of hydrogen at the right temperatures and pressures. Yaghi and his colleagues have now demonstrated the ability to store large amounts of hydrogen at the right pressure; in addition, Yaghi has ideas about how to modify the rod-like components to store hydrogen at ambient temperatures (0-45°C).
"A decade ago, people thought methane would be impossible to store; that problem has been largely solved by our MOF materials. Hydrogen is a little more challenging than methane, but I am optimistic."
Yaghi, 41, has reason to be optimistic since only a handful of MOFs have been tested for hydrogen storage thus far. This is not unreasonable given that MOFs are composed of an inorganic component - a metal oxide - and an organic component; he can control their assembly into new structures nearly at will.
How would hydrogen work in devices like cell phones, laptop computers and digital cameras?
"Instead of a battery, one would have a medium such as MOF that stores hydrogen and releases it into a fuel cell," he said.
Yaghi, whose research overlaps chemistry, materials science and engineering, has long been interested in making materials in a rational way.
"When I started out in chemistry, I always thought it should be possible to take two well-defined molecules as building blocks and stitch them together into a predetermined chemical structure - almost like you produce a blueprint of the structure ahead of time and then find the right building blocks necessary to build it. In this way, one can control the structure and the composition. This approach was difficult to implement at the beginning, but is not so difficult at this stage."
Hydrogen, when burned, produces only water, which is harmless to the environment, Yaghi noted. With MOFs, hydrogen is physically absorbed, and it is easy to take the hydrogen out and put it back in without much energy cost, he said.
"The challenge has been, how do you store enough hydrogen for an automobile to run for 300 to 400 miles without refueling?" Yaghi asked. "You have to concentrate the hydrogen into a small volume without using high pressure of very low temperature.
"Our idea was to create a material with pores that attract hydrogen, making it possible to stuff more hydrogen molecules into a small volume," he said.
In previous research, Yaghi and colleagues reported that MOFs also can store large amounts of methane (natural gas).
"We have materials that exceed the DOE requirements for methane, and we think we can apply the same sort of strategy for hydrogen storage,\\\
University of California-Los Angeles
The materials, which Yaghi invented in the early 1990s, are called metal-organic frameworks (MOFs), pronounced "moffs," which are like scaffolds made of linked rods - a structure that maximizes the surface area. MOFs, which have been described as crystal sponges, have pores, openings on the nanoscale in which Yaghi and his colleagues can store gases that are usually difficult to store and transport. MOFs can be made highly porous to increase their storage capacity; one gram of a MOF has the surface area of a football field! Yaghi's laboratory has made more than 500 MOFs, with a variety of properties and structures.
"We have achieved 7.5 percent hydrogen; we want to achieve this percent at ambient temperatures," said Yaghi, a member of the California NanoSystems Institute. "We can store significantly more hydrogen with the MOF material than without the MOF."
MOFs can be made from low-cost ingredients, such as zinc oxide - a common ingredient in sunscreen - and terephthalate, which is found in plastic soda bottles.
"MOFs will have many applications. Molecules can go in and out of them unobstructed. We can make polymers inside the pores with well-defined and predictable properties. There is no limit to what structures we can get, and thus no limit to the applications."
In the push to develop hydrogen fuel cells to power cars, cell phones and other devices, one of the biggest challenges has been finding ways to store large amounts of hydrogen at the right temperatures and pressures. Yaghi and his colleagues have now demonstrated the ability to store large amounts of hydrogen at the right pressure; in addition, Yaghi has ideas about how to modify the rod-like components to store hydrogen at ambient temperatures (0-45°C).
"A decade ago, people thought methane would be impossible to store; that problem has been largely solved by our MOF materials. Hydrogen is a little more challenging than methane, but I am optimistic."
Yaghi, 41, has reason to be optimistic since only a handful of MOFs have been tested for hydrogen storage thus far. This is not unreasonable given that MOFs are composed of an inorganic component - a metal oxide - and an organic component; he can control their assembly into new structures nearly at will.
How would hydrogen work in devices like cell phones, laptop computers and digital cameras?
"Instead of a battery, one would have a medium such as MOF that stores hydrogen and releases it into a fuel cell," he said.
Yaghi, whose research overlaps chemistry, materials science and engineering, has long been interested in making materials in a rational way.
"When I started out in chemistry, I always thought it should be possible to take two well-defined molecules as building blocks and stitch them together into a predetermined chemical structure - almost like you produce a blueprint of the structure ahead of time and then find the right building blocks necessary to build it. In this way, one can control the structure and the composition. This approach was difficult to implement at the beginning, but is not so difficult at this stage."
Hydrogen, when burned, produces only water, which is harmless to the environment, Yaghi noted. With MOFs, hydrogen is physically absorbed, and it is easy to take the hydrogen out and put it back in without much energy cost, he said.
"The challenge has been, how do you store enough hydrogen for an automobile to run for 300 to 400 miles without refueling?" Yaghi asked. "You have to concentrate the hydrogen into a small volume without using high pressure of very low temperature.
"Our idea was to create a material with pores that attract hydrogen, making it possible to stuff more hydrogen molecules into a small volume," he said.
In previous research, Yaghi and colleagues reported that MOFs also can store large amounts of methane (natural gas).
"We have materials that exceed the DOE requirements for methane, and we think we can apply the same sort of strategy for hydrogen storage,\\\
University of California-Los Angeles
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Delaware State U. scientists refine hydrogen fuel-cell vehicle power plants
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Feather fibers fluff up hydrogen storage capacity
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Dancing 'adatoms' help chemists understand how water molecules split
Single oxygen atoms dancing on a metal oxide slab, glowing brighter here and dimmer there, have helped chemists better understand how water splits into oxygen and hydrogen. In the process, the scientists have visualized a chemical reaction that had previously only been talked about. The new work improves our understanding of the chemistry needed to generate hydrogen fuel from water or to clean contaminated water.
Nanowires May Lead To Better Fuel Cells
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Forget the freezer: Research suggests novel way to control water behavior
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