The US Department of Energy (DOE) is seeking applications for projects in “Nuclear Coupled Hydrogen Production and Use.” This just-announced amendment to an existing funding opportunity aims to support the development of nuclear plant thermal integration that would be required for high-temperature hydrogen production or hydrogen-coupled end uses for nuclear.
On February 14, 2022, the Department of Energy (“DOE”) issued two Requests for Information (“RFIs”) related to its rollout of significant hydrogen programs. The RFIs seek input from the.
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New nanomaterial supports enhanced and stabilized hydrogen production from methanol
In an open-access paper published in the
Proceedings of the National Academy of Sciences (PNAS), the researchers report that the catalyst can cleanly and efficiently accelerate the reaction that removes hydrogen atoms from a liquid chemical carrier such as methanol. The material is robust and made from earth-abundant metals rather than existing options made from precious metals, and could help make hydrogen a viable energy source for a wide range of applications.
We present here not merely a catalyst with higher activity than other nickel catalysts that we tested, for an important renewable energy fuel, but also a broader strategy toward using affordable metals in a broad range of reactions.
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IMAGE: An illustration of the 2D boron nitride substrate with imperfections that host tiny nickel clusters. The catalyst aids the chemical reaction that removes hydrogen from liquid chemical carriers, making it. view more
Credit: Jeff Urban/Berkeley Lab
Hydrogen is a sustainable source of clean energy that avoids toxic emissions and can add value to multiple sectors in the economy including transportation, power generation, metals manufacturing, among others. Technologies for storing and transporting hydrogen bridge the gap between sustainable energy production and fuel use, and therefore are an essential component of a viable hydrogen economy. But traditional means of storage and transportation are expensive and susceptible to contamination. As a result, researchers are searching for alternative techniques that are reliable, low-cost and simple. More-efficient hydrogen delivery systems would benefit many applications such as stationary power, portable power,