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Researchers Develop New Lower-Cost, Efficient Catalyst for Water Gas Shift Reaction for Hydrogen Production

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A team of researchers from Tufts University, the University of Wisconsin-Madison and Harvard University report that alkali ions (sodium or potassium) added in small amounts activate platinum adsorbed on alumina or silica for the low-temperature water-gas shift (WGS) reaction (H 2 O+CO→ H 2 +CO 2 ) used for producing hydrogen.

Water 170
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3 MIT-led teams win DOE NEUP funding for next-gen nuclear technologies

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The award extends funding for the integrated research project (IRP) between MIT, the University of California at Berkeley, and the University of Wisconsin at Madison to develop a test reactor and, ultimately, a commercial high-temperature salt-cooled reactor, also called a Fluoride-salt High-Temperature Reactor [FHR].

MIT 210
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Novel single-site gold WGS catalysts may offer pathway to lower-cost production of hydrogen, fuels and chemicals

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A team of researchers from universities and national laboratories led by Tufts University has developed catalysts composed of a unique structure of single gold atoms bound by oxygen to several sodium or potassium atoms and supported on non-reactive silica materials. This single-site gold species is active for the low-temperature (.

Hydrogen 199
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Tuning electrode surfaces to optimize solar fuel production

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Scientists have demonstrated that modifying the topmost layer of atoms on the surface of electrodes can have a remarkable impact on the activity of solar water splitting. This photocurrent drives the chemical reactions that split water into oxygen and hydrogen. —Mingzhao Liu. —Kyoung-Shin Choi.

Solar 186
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ARPA-E awards $55M to 18 projects in two new programs: TERRA for transportation energy and GENSETS for distributed generation

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The program will encourage systems that couple large-scale physical and genetic characterization with advanced algorithms in order to accelerate the year-over-year yield gains of traditional plant breeding and the discovery of crop traits that improve water productivity, nutrient use and our ability to mitigate greenhouse gases. Description.