Semiconductor-membrane fuel cell (SMFC) for renewable energy technology
The expansion of the human population and improved living conditions for a sizable portion
of people are the primary forces behind adopting sustainable energy production …
of people are the primary forces behind adopting sustainable energy production …
[HTML][HTML] Advanced low-temperature solid oxide fuel cells based on a built-in electric field
Y Lu, B Zhu, J Shi, S Yun - Energy Materials, 2021 - oaepublish.com
Solid oxide fuel cells (SOFCs) show considerable promise for meeting the current ever-
increasing energy demand and environmental sustainability requirements as a result of their …
increasing energy demand and environmental sustainability requirements as a result of their …
[HTML][HTML] ZnO/MgZnO heterostructure membrane with type II band alignment for ceramic fuel cells
Semiconductor membrane fuel cells are a new promising R&D for solid oxide fuel cells and
proton ceramic fuel cells. There is a challenge of the electronic short circuit issue by using …
proton ceramic fuel cells. There is a challenge of the electronic short circuit issue by using …
Perovskite Al-SrTiO 3 semiconductor electrolyte with superionic conduction in ceramic fuel cells
Perovskite oxide do** may modulate the energy bandgap strongly affecting the oxygen
reduction activity and electrical properties with high promise for use as a low-temperature …
reduction activity and electrical properties with high promise for use as a low-temperature …
Enhanced electrochemical redox kinetics of La0. 6Sr0. 4Co0. 2Fe0. 8O3 in reversible solid oxide cells
P Li, F Liu, B Yang, W Wei, X Ma, F Yan, T Gan, D Fu - Electrochimica Acta, 2023 - Elsevier
Due to its high conversion efficiency in fuel-to-power and power-to-fuel modes, reversible
solid oxide cell (RSOC) is widely regarded as a promising device. In this study, La 0.6 Sr 0.4 …
solid oxide cell (RSOC) is widely regarded as a promising device. In this study, La 0.6 Sr 0.4 …
Novel Perovskite Semiconductor Based on Co/Fe-Codoped LBZY (La0.5Ba0.5 Co0.2Fe0.2Zr0.3Y0.3O3−δ) as an Electrolyte in Ceramic Fuel Cells
Introducing triple-charge (H+/O2–/e–) conducting materials is a promising alternative to
modify a cathode as an electrolyte in advanced ceramic fuel cells (CFC). Herein, we …
modify a cathode as an electrolyte in advanced ceramic fuel cells (CFC). Herein, we …
Insight of proton transport phenomena in semiconductor ionic materials
Semiconductor ionic materials (SIM) have recently gained broad attention due to their
unique structural and chemical properties that enable efficient proton transport, making them …
unique structural and chemical properties that enable efficient proton transport, making them …
[HTML][HTML] Enabling high ionic conductivity in semiconductor electrolyte membrane by surface engineering and band alignment for LT-CFCs
Wide bandgap semiconductor perovskite SrTiO 3 (STO) has attracted extensive attention
due to its higher kinetics of electrons (electronic conductivity). However, rare studies have …
due to its higher kinetics of electrons (electronic conductivity). However, rare studies have …
Unraveling the synergistic effect on ionic transport of ceria via the surface engineering for low-temperature ceramic fuel cells
Recently, the multifunctional semiconductor CeO 2 realized high ionic conductivity via
surface conduction and delivered higher fuel cell performance. This indicates a promising …
surface conduction and delivered higher fuel cell performance. This indicates a promising …
Enhancing the performance of the BaTiO3 electrolyte via A-site-deficiency engineering for low-temperature ceramic fuel cells (LT-CFCs)
The development of low-temperature solid oxide fuel cells (LT-SOFCs) is gaining abundant
interest in semiconductor ionic materials (electrodes and electrolytes). Following this …
interest in semiconductor ionic materials (electrodes and electrolytes). Following this …