Rice University scientists have invented a light-activated catalyst that efficiently converts ammonia into clean-burning hydrogen using only inexpensive raw materials. The design is a light-activated nanomaterial to convert the ammonia into clean-burning hydrogen fuel.
The effort is a collaborative project from Rice’s Laboratory for Nanophotonics, Syzygy Plasmonics Inc. and Princeton University’s Andlinger Center for Energy and the Environment. The research report has been published in the journal Science.
The research follows government and industry investment to create infrastructure and markets for carbon-free liquid ammonia fuel that will not contribute to greenhouse warming. Liquid ammonia is easy to transport and packs a lot of energy, with one nitrogen and three hydrogen atoms per molecule. The new catalyst breaks those molecules into hydrogen gas, a clean-burning fuel, and nitrogen gas, the largest component of Earth’s atmosphere. And unlike traditional catalysts, it doesn’t require heat. Instead, it harvests energy from light, either sunlight or energy-stingy LEDs.
The pace of chemical reactions typically increases with temperature, and chemical producers have capitalized on this for more than a century by applying heat on an industrial scale. The burning of fossil fuels to raise the temperature of large reaction vessels by hundreds or thousands of degrees results in an enormous carbon footprint. Chemical producers also spend billions of dollars each year on thermocatalysts – materials that don’t react but further speed reactions under intense heating.
Study co-author Naomi Halas of Rice noted, “Transition metals like iron are typically poor thermocatalysts, This work shows they can be efficient plasmonic photocatalysts. It also demonstrates that photocatalysis can be efficiently performed with inexpensive LED photon sources.”
Rice co-author Peter Nordlander added, “This discovery paves the way for sustainable, low-cost hydrogen that could be produced locally rather than in massive centralized plants.”
The best thermocatalysts are made from platinum and related precious metals like palladium, rhodium and ruthenium. Halas and Nordlander spent years developing light-activated, or plasmonic, metal nanoparticles. The best of these are also typically made with precious metals like silver and gold.
Following their 2011 discovery of plasmonic particles that give off short-lived, high-energy electrons called “hot carriers,” they discovered in 2016 that hot-carrier generators could be married with catalytic particles to produce hybrid “antenna-reactors,” where one part harvested energy from light and the other part used the energy to drive chemical reactions with surgical precision.
Halas, Nordlander, their students and collaborators have worked for years to find non-precious metal alternatives for both the energy-harvesting and reaction-speeding halves of antenna reactors. The new study is a culmination of that work. In it, Halas, Nordlander, Rice alumnus Hossein Robatjazi, Princeton engineer and physical chemist Emily Carter, and others show that antenna-reactor particles made of copper and iron are highly efficient at converting ammonia. The copper, energy-harvesting piece of the particles captures energy from visible light.
Robatjazi, a Ph.D. alumnus from Halas’ research group who is now chief scientist at Houston-based Syzygy Plasmonics explained, “In the absence of light, the copper-iron catalyst exhibited about 300 times lower reactivity than copper-ruthenium catalysts, which is not surprising given that ruthenium is a better thermocatalyst for this reaction. Under illumination, the copper-iron showed efficiencies and reactivities that were similar to and comparable with those of copper-ruthenium.
Syzygy has licensed Rice’s antenna-reactor technology, and the study included scaled-up tests of the catalyst in the company’s commercially available, LED-powered reactors. In laboratory tests at Rice, the copper-iron catalysts had been illuminated with lasers. The Syzygy tests showed the catalysts retained their efficiency under LED illumination and at a scale 500 times larger than lab setup.
“This is the first report in the scientific literature to show that photocatalysis with LEDs can produce gram-scale quantities of hydrogen gas from ammonia,” Halas said. “This opens the door to entirely replace precious metals in plasmonic photocatalysis.”
“Given their potential for significantly reducing chemical sector carbon emissions, plasmonic antenna-reactor photocatalysts are worthy of further study,” Carter added. “These results are a great motivator. They suggest it is likely that other combinations of abundant metals could be used as cost-effective catalysts for a wide range of chemical reactions.”
One might think the door could be open soon for the hydrogen transport and storage solution. For most folks looking at hydrogen for a transport fuel, portability, and lots more safety, ammonia containment offers a huge leap forward.
Ammonia is still fairly noxious, but its ignition and rapid combustion are negligible. It is also a non pressurized carrier for hydrogen. It does have a very strong odor, giving some warning of its escape. All in all, as a practical hydrogen carrier, its pretty good.
There are some questions like just how much light energy is needed to say, power an automobile. The scale up testing is underway. Then one wonders how to dispense with the nitrogen and if there is an energy cost as well to venting somehow a N2 or di-nitrogen molecule back into the atmosphere harmlessly.
We’re going to be watching for more on this.
Lastly, there is a long list of authors at the bottom of the press release. These folks have been at this for over a decade. There is also a list of funders there as well. They all deserve notice and our thanks. Lets hope this effort get to a real low cost commercial scale system!
The post Light Energized Catalyst Splits Hydrogen From Ammonia first appeared on New Energy and Fuel.
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