BACKGROUND Alleviating the worst effects of climate change requires drastic modification
of our energy system: moving from fossil fuels to low-carbon energy sources. The challenge …

Highly efficient coelectrolysis of CO2/H2O into syngas (a mixture of CO/H2), and subsequent
syngas conversion to fuels and value-added chemicals, is one of the most promising …

Increased interest in electrical energy storage is in large part driven by the explosive growth
in intermittent renewable sources such as wind and solar as well as the global drive towards …

CO2 conversion covers a wide range of possible application areas from fuels to bulk and
commodity chemicals and even to specialty products with biological activity such as …

The continuous consumption of fossil fuels causes two important impediments including
emission of large concentrations of CO 2 resulting in global warming and alarming utilization …

High-temperature solid oxide electrolysis cells (SOECs) are advanced electrochemical
energy storage and conversion devices with high conversion/energy efficiencies. They offer …

Transmute CO 2 to value-added chemical products by electrochemical reduction is a
potential candidate and a highly providential route to mitigate CO 2 levels in atmosphere …

Excessive emission of CO 2 may jeopardize the environment and livelihood of mankind. To
achieve a sustainable future, solid oxide electrolysis cells (SOECs) are increasingly …

Starting with coal, followed by petroleum oil and natural gas, the utilization of fossil fuels has
allowed the fast and unprecedented development of human society. However, the burning of …

Solid oxide cell (SOC) based energy conversion systems have the potential to become the
cleanest and most efficient systems for reversible conversion between electricity and …