The concept of direct CO 2 capture and conversion has attracted significant interest from
industries and academia in recent decades due to its potential to address the current grand …

With fossil fuel being the major source of energy, CO 2 emission levels need to be reduced
to a minimal amount namely from anthropogenic sources. Energy consumption is expected …

Separation processes are substantially more difficult when the species to be separated is
highly dilute. To perform any dilute separation, thermodynamic and kinetic limitations must …

Coupling of CO 2 separation and CO 2 utilization in membrane reactor is an ideal way to
solve CO 2 emission problem. In this study, we report an effective catalytic reverse water-gas …

CO 2 separation through ceramic-carbonate dual-phase membrane from various industrial
carbon sources has become a promising way to solve the high-temperature CO 2 emission …

Membranes for selective carbon dioxide permeation are likely to be important devices in
future separation processes relevant to the energy industry. Here we review the current state …

Ceramic-carbonate dual phase (CCDP) membrane consisting of oxygen ionic conductor
and molten carbonate has potential applications in clean energy delivery as it enabling the …

CO 2 capture and sequestration (CCS) from stationary flue gas sources is one of the critical
technologies needed as the future energy landscape shifts to low carbon intensity energy …

Ceria–salt composites represent one type of promising electrolyte candidates for low
temperature solid oxide fuel cells (LT‐SOFCs), in which ceria–carbonate attracts particular …

Gas separation membranes hold significant promise for carbon capture and storage (CCS)
as they offer high modularity in combination with technical simplicity. It is routinely expected …