Molten salt electrolysis and solid oxide membrane (SOM) processes represent innovative approaches to metal production that offer significant environmental and energy efficiency benefits. By utilising ...

Machine learning plays a key role in this work, designing new technologies for producing carbon nanotubes (CNTs) and graphene by electrolysis in molten salts. The aim is to achieve non-expensive, high ...

The questions in this quiz are suitable for GCSE chemistry students studying electrolysis of molten salts, electrolysis of solutions and oxidation and reduction in electricity. If you struggled with ...

The electrochemical behaviour in molten salts encompasses a broad spectrum of research that bridges fundamental science and industrial applications. Molten salts, due to their high ionic conductivity ...

Scientific American is part of Springer Nature, which owns or has commercial relations with thousands of scientific publications (many of them can be found at www ...

A chemist at the University of Cincinnati has come up with a novel way to study the thermodynamic properties of molten salts, which are used in many nuclear and solar energy applications. UC College ...

Case Western Reserve leading research to develop zero-carbon, electrochemical process to produce iron metal as part of U.S. Department of Energy effort Case Western Reserve University chemical ...

The Integral Molten Salt Reactor (IMSR) represents a clean energy alternative to fossil fuel combustion for industrial heat and provision, which is compact, efficient, and cost-competitive with fossil ...

Molten salt nuclear reactors (MSR) also have unique passive methods of preventing nuclear disasters. Some plants are equipped with what's known as a "freeze plug" in the reactor chamber. In the event ...

Molten Salt Reactors (MSRs) are nuclear fission reactors in which either the fuel and/or the coolant is a molten salt. Molten salt is salt which liquifies at elevated temperatures and can store ...