The Energy Frontier Research Center for Molten Salts in Extreme Environments (MSEE) seeks fundamental and predictive understanding of the bulk and interfacial chemistry of molten salts in the
The Brookhaven EFRC, named “Molten Salts in Extreme Environments,” will focus on understanding the properties of a class of materials with potential applications in energy
The center for Molten Salts in Extreme Environments (MSEE) is building a fundamental and predictive understanding of molten salt bulk and interfacial chemistry, including the effects of solutes and
Performing in-situ studies on interfacial and corrosion processes in molten salts using high temperature electrochemical cells coupled with synchrotron-based multi-modal X-ray techniques.
New and exciting frontiers for the generation of safe and renewable energy have brought attention to molten inorganic salts of fluorides and chlorides. This is because high-temperature
The researchers, from the Department of Energy''s Oak Ridge National Laboratory and the University of Iowa, computationally simulated the introduction of an excess electron into molten
Studying corrosion at molten salt-metal interfaces in electrochemical environments using synchrotron-based diffraction and spectroscopy methods and performing multi-modal in-situ corrosion studies
To better understand how molten salts change in high-temperature environments, like a nuclear reactor, INL researchers are developing
Molten salts, or salt melts, remain liquid across a range of temperatures and offer stable thermal and conductive properties for some of the
To provide fundamental and predictive understanding of molten salt bulk and interfacial chemistry that will establish robust principles to guide the technologies needed to deploy molten salt nuclear reactors.
With some experiments having conflicting design requirements and some salts having melting temperatures upward of 800℃, it is imperative that researchers
The focus of Thrust 2 is to understand how molten salts interact with and modify interfaces across length- and time-scales and under multiple extreme environments including temperature, mixed
Understanding the bulk and interfacial structure of molten salts is an integral part of our research.
Our team consists of six institutions that excel in X-ray and neutron science, in working with actinides, in working under extreme conditions, and performing computer simulations of molten salts and their
To provide fundamental and predictive understanding, based in atomistic/molecular level descriptions, of molten salt bulk and interfacial chemistry, including the effects of solutes, impurities and radiation.
However, molten salts operating under extreme environments (500–800℃, strong corrosivity, intense radiation) complicate material selection, sensor durability, and in-situ chemical monitoring, directly
UPTON, NY—The U.S. Department of Energy''s (DOE) Office of Science announced renewed funding for an Energy Frontier Research Center (EFRC) led by DOE''s Brookhaven National
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