Solid oxide fuel cells (SOFCs) are recognized as highly efficient energy-conversion and eco-
friendliness technologies. However, the high-temperature operation of conventional SOFCs …

To reach a decarbonized future, the conversion of greenhouse gases into green fuels and
valuable chemicals is of crucial importance. Methane emissions are the second most …

The increasing demand for green hydrogen and power production necessitates the
development of novel and upgraded power generation technologies. The solid oxide fuel …

In response to greenhouse effect and energy crisis, the clean and efficient use of CH 4 and
CO 2 resources has become increasingly attractive. Against this background, solid oxide …

CH4-fueled metal-supported solid oxide fuel cells (CH4-MS-SOFCs) are propitious as CH4
is low-priced and readily available, and its renewable production is possible, such as …

The direct use of synthesis gas produced by the dry reforming of methane is strongly limited
by the catalyst deactivation and performance degradation owing to the carbon deposition in …

Intermediate-temperature solid oxide fuel cell (IT-SOFC) is promising for carbon neutrality,
but its cathode is limited by the contradiction between thermal compatibility and catalytic …

Direct ammonia protonic ceramic fuel cells (DA-PCFCs) have attracted extensive attention
by virtue of their high hydrogen content, superior energy density, and zero carbon …

Direct ammonia solid oxide fuel cells (SOFCs) can generate the carbon-free power with high
energy conversion efficiency in the context of “Carbon Neutrality”, as ammonia is the ideal …

Direct CH 4–CO 2 solid oxide fuel cells (SOFC) have attracted considerable attention due to
their potential for high-efficiency power generation with low environmental impact. However …