Recent advances in layered Ln 2 NiO 4+ δ nickelates: Fundamentals and prospects of their applications in protonic ceramic fuel and electrolysis cells
In the past decade, intensive research on proton-conducting oxide materials has provided a
basis for the development of intermediate-temperature protonic ceramic electrochemical …
basis for the development of intermediate-temperature protonic ceramic electrochemical …
Proton-conducting solid oxide electrolysis cells: Relationship of composition-structure-property, their challenges, and prospects
Proton-conducting solid oxide electrolysis cells (H-SOECs) have attracted significant
attention in recent years. This is due to their advantageous nature compared with the …
attention in recent years. This is due to their advantageous nature compared with the …
Ruddlesden–Popper perovskites in electrocatalysis
Electrocatalysis lies in the center of many clean energy conversion and storage
technologies. Develo** efficient electrocatalysts to promote the kinetics of the key …
technologies. Develo** efficient electrocatalysts to promote the kinetics of the key …
Protonic ceramic electrochemical cells for hydrogen production and electricity generation: exceptional reversibility, stability, and demonstrated faradaic efficiency
We demonstrate exceptional performance for steam electrolysis at intermediate
temperatures (500–650° C) using protonic ceramic electrolyte cells comprised of the proton …
temperatures (500–650° C) using protonic ceramic electrolyte cells comprised of the proton …
Design of a highly stable and conductive electrolyte by suppressing barium copper oxide formation at the grain interfaces in Cux-doped BaCe0. 7Zr0. 1Dy0. 2-xO3-δ …
Proton-conducting electrolytes with high conductivity and long-term stability, achievable at
low sintering temperatures, are of paramount importance. In this study, we investigate the …
low sintering temperatures, are of paramount importance. In this study, we investigate the …
Progress report on proton conducting solid oxide electrolysis cells
The proton‐conducting solid oxide electrolysis cell (H‐SOEC) is a promising device that
converts electrical energy to chemical energy. H‐SOECs have been actively studied in the …
converts electrical energy to chemical energy. H‐SOECs have been actively studied in the …
Materials of solid oxide electrolysis cells for H2O and CO2 electrolysis: A review.
P Qiu, C Li, B Liu, D Yan, J Li… - Journal of Advanced …, 2023 - search.ebscohost.com
Reliable and economical energy storage technologies are urgently required to ensure
sustainable energy supply. Hydrogen (H< sub> 2) is an energy carrier that can be produced …
sustainable energy supply. Hydrogen (H< sub> 2) is an energy carrier that can be produced …
Trends in research and development of protonic ceramic electrolysis cells
D Medvedev - international journal of hydrogen energy, 2019 - Elsevier
Hydrogen energy is an ever-growing and increasingly crucial current field of science and
technology aimed at solving many global problems, such as world-wide pollution, the …
technology aimed at solving many global problems, such as world-wide pollution, the …
A perspective on DRT applications for the analysis of solid oxide cell electrodes
Conventional electrochemical impedance spectroscopy (EIS) is a popular in-situ technique
for electrochemical analysis and has been widely applied in solid oxide cells (SOCs) …
for electrochemical analysis and has been widely applied in solid oxide cells (SOCs) …
Green hydrogen production by intermediate‐temperature protonic solid oxide electrolysis cells: Advances, challenges, and perspectives
Protonic solid oxide electrolysis cells (P‐SOECs) operating at intermediate temperatures,
which have low costs, low environmental impact, and high theoretical electrolysis efficiency …
which have low costs, low environmental impact, and high theoretical electrolysis efficiency …