La2Ce2O7 based materials for next generation proton conducting solid oxide cells: Progress, opportunity and future prospects
The development of efficient and environmentally-friendly technology is the only possible
way to solve the existing energy and environmental crisis. Solid oxide cells (SOCs) …
way to solve the existing energy and environmental crisis. Solid oxide cells (SOCs) …
Progress in Developing LnBaCo2O5+δ as an Oxygen Reduction Catalyst for Solid Oxide Fuel Cells
F Zheng, S Pang - Catalysts, 2023 - mdpi.com
Solid oxide fuel cells (SOFCs) represent a breed of eco-friendly, weather-independent,
decentralized power generation technologies, distinguished for their broad fuel versatility …
decentralized power generation technologies, distinguished for their broad fuel versatility …
A highly efficient and robust bifunctional perovskite‐type air electrode with triple‐conducting behavior for low‐temperature solid oxide fuel cells
Cobalt‐rich materials have generally been recognized as the prevailing candidates of
cathodes for low‐temperature solid oxide fuel cells (LT‐SOFCs, 400–600° C). Regrettably …
cathodes for low‐temperature solid oxide fuel cells (LT‐SOFCs, 400–600° C). Regrettably …
Technological challenges and advancement in proton conductors: a review
Proton conductors (PCs) are multifunctional perovskite materials with structural, electrical,
and chemical compatibilities that serve as principal components in proton conducting solid …
and chemical compatibilities that serve as principal components in proton conducting solid …
Critical role of acceptor dopants in designing highly stable and compatible proton-conducting electrolytes for reversible solid oxide cells
Proton-conducting electrolytes are receiving increasing attention due to their high ionic
conductivity at intermediate temperatures, enabling the operation of solid oxide cells with …
conductivity at intermediate temperatures, enabling the operation of solid oxide cells with …
High-Throughput computational screening and machine learning modeling of janus 2D III–VI van der waals heterostructures for solar energy applications
Two-dimensional Janus III–VI monolayers and corresponding van der Waals (vdW)
heterostructures present immense application potential in the solar energy conversion …
heterostructures present immense application potential in the solar energy conversion …
A new class of proton conductors with dramatically enhanced stability and high conductivity for reversible solid oxide cells
Reversible solid oxide cells based on proton conductors (P‐ReSOCs) have potential to be
the most efficient and low‐cost option for large‐scale energy storage and power generation …
the most efficient and low‐cost option for large‐scale energy storage and power generation …
First-principles computational design and discovery of solid-oxide proton conductors
Solid-oxide proton-conducting materials are key components for hydrogen-based energy
devices, including solid-oxide fuel cells, electrolyzers, hydrogen separation membranes …
devices, including solid-oxide fuel cells, electrolyzers, hydrogen separation membranes …
Synthesis of freestanding perovskite oxide thin films by using brownmillerite SrCoO2. 5 as a sacrificial layer
W Zhou, W Han, Y Yang, L Shu, Q Luo, Y Ji… - Applied Physics …, 2023 - pubs.aip.org
Freestanding perovskite thin films display many unprecedented properties and exhibit the
potential to be easily integrated on other non-oxide substrates or layers. In this work, we …
potential to be easily integrated on other non-oxide substrates or layers. In this work, we …
Discovery of Unconventional Proton‐Conducting Inorganic Solids via Defect‐Chemistry‐Trained, Interpretable Machine Learning
High‐throughput computational screening and machine learning hold significant potential
for exploring diverse chemical compositions and discovering novel inorganic solids …
for exploring diverse chemical compositions and discovering novel inorganic solids …