Semiconductor electrochemistry for clean energy conversion and storage
Semiconductors and the associated methodologies applied to electrochemistry have
recently grown as an emerging field in energy materials and technologies. For example …
recently grown as an emerging field in energy materials and technologies. For example …
Junction and energy band on novel semiconductor-based fuel cells
Fuel cells are highly efficient and green power sources. The typical membrane electrode
assembly is necessary for common electrochemical devices. Recent research and …
assembly is necessary for common electrochemical devices. Recent research and …
[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 …
Theoretical and experimental explored tailored hybrid H+/O2–ions conduction: Bridged for high performance fuel cell and water electrolysis
Z Tayyab, S Rauf, MB Hanif, HIA Qazi… - Chemical Engineering …, 2024 - Elsevier
A hybrid proton and oxide ion (H+/O 2–) conducting electrolyte transports ions in multiple
ways can operate at lower operating temperatures than a pure oxide ion conductor in solid …
ways can operate at lower operating temperatures than a pure oxide ion conductor in solid …
[PDF][PDF] A nanoscale perspective on solid oxide and semiconductor membrane fuel cells: materials and technology
Fuel cells could play an important role in the ongoing energy transition by providing clean
and efficient energy conversion. Although the solid oxide fuel cell (SOFC) technology is a …
and efficient energy conversion. Although the solid oxide fuel cell (SOFC) technology is a …
Modulating the Energy Band Structure of the Mg-Doped Sr0.5Pr0.5Fe0.2Mg0.2Ti0.6O3−δ Electrolyte with Boosted Ionic Conductivity and Electrochemical …
Achieving fast ionic conductivity in the electrolyte at low operating temperatures while
maintaining the stable and high electrochemical performance of solid oxide fuel cells …
maintaining the stable and high electrochemical performance of solid oxide fuel cells …
Designing pn heterostructure of LSCF-CeO2 material for ionic transportation as an electrolyte for semiconductor ion membrane fuel cell
Abstract Development of protonic ceramic fuel cells (PCFCs) electrolyte with fast ionic
conduction and high electrochemical performance at low temperature is highly desirable for …
conduction and high electrochemical performance at low temperature is highly desirable for …
Semiconductor Heterostructure (SrFe0.3TiO3-ZnO) Electrolyte with High Proton Conductivity for Low-Temperature Ceramic Electrochemical Cells
In recent years, ceramic cells based on high proton conductivity have attracted much
attention and can be employed for hydrogen production and electricity generation …
attention and can be employed for hydrogen production and electricity generation …
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 …
Designing High Interfacial Conduction beyond Bulk via Engineering the Semiconductor–Ionic Heterostructure CeO2−δ/BaZr0.8Y0.2O3 for Superior Proton …
Proton ceramic fuel cells (PCFCs) are an emerging clean energy technology; however, a
key challenge persists in improving the electrolyte proton conductivity, eg, around 10–3–10 …
key challenge persists in improving the electrolyte proton conductivity, eg, around 10–3–10 …