Electrochemistry and energy conversion features of protonic ceramic cells with mixed ionic-electronic electrolytes
Protonic ceramic electrochemical cells (including fuel cells (PCFCs) and electrolysis cells
(PCECs)) are positioned as an eco-friendly means for realizing energy/chemical conversion …
(PCECs)) are positioned as an eco-friendly means for realizing energy/chemical conversion …
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 …
Advanced materials for SOFC application: Strategies for the development of highly conductive and stable solid oxide proton electrolytes
DA Medvedev, JG Lyagaeva, EV Gorbova… - Progress in Materials …, 2016 - Elsevier
The basic strategies of improving the stability of proton-conducting electrolytes based on
barium cerate (BaCeO 3) by means of:(i) co-do**,(ii) do** by nonmetallic elements and …
barium cerate (BaCeO 3) by means of:(i) co-do**,(ii) do** by nonmetallic elements and …
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 review on unitized regenerative fuel cell technologies, part B: Unitized regenerative alkaline fuel cell, solid oxide fuel cell, and microfluidic fuel cell
In part A of this review, we have introduced the progress of the research and the application
status of unitized regenerative proton exchange membrane fuel cells. In addition to this …
status of unitized regenerative proton exchange membrane fuel cells. In addition to this …
Insights on thermal and transport features of BaCe0. 8− xZrxY0. 2O3− δ proton-conducting materials
Abstract BaCe 0.8− x Zr x Y 0.2 O 3− δ-based materials (BCZYx, 0≤ x≤ 0.8) are obtained
through a modified citrate-nitrate combustion method at 1150° C with following sintering at …
through a modified citrate-nitrate combustion method at 1150° C with following sintering at …
[HTML][HTML] Hydrogen production at intermediate temperatures with proton conducting ceramic cells: Electrocatalytic activity, durability and energy efficiency
Proton conducting ceramic cells (PCCs) are an attractive emerging technology operating in
the intermediate temperature range of 500 to 700° C. In this work, we evaluate the …
the intermediate temperature range of 500 to 700° C. In this work, we evaluate the …
Optimization study of the produced electric power by SOFCs
In this work, an optimization study of the delivered power density by the solid oxide fuel cells
is presented according to a thermodynamic model. The power density is defined by the …
is presented according to a thermodynamic model. The power density is defined by the …
Modeling of multiple-defect conducting, planar protonic ceramic electrolysis cells using a Nernst–Planck formulation
Advancing protonic ceramic electrochemical cell (PCEC) technology offers promise for a
variety of energy applications, including membrane reactors, fuel cells, and electrolyzers …
variety of energy applications, including membrane reactors, fuel cells, and electrolyzers …
Steady-state and dynamic modeling of intermediate-temperature protonic ceramic fuel cells
KJ Albrecht, A Dubois, K Ferguson… - Journal of The …, 2019 - iopscience.iop.org
Protonic ceramic fuel cells (PCFC) have emerged as a promising candidate for distributed
power generation. The reduced temperature cells (∼ 500 C) have the potential to enable …
power generation. The reduced temperature cells (∼ 500 C) have the potential to enable …