A perspective on low-temperature solid oxide fuel cells
This article provides a perspective on solid oxide fuel cells operating at low temperature,
defined here to be the range from∼ 400° C to 650° C. These low-temperature solid oxide …
defined here to be the range from∼ 400° C to 650° C. These low-temperature solid oxide …
Single-chamber solid oxide fuel cell technology—from its origins to today's state of the art
M Kuhn, TW Napporn - Energies, 2010 - mdpi.com
In single-chamber solid oxide fuel cells (SC-SOFCs), both anode and cathode are situated
in a common gas chamber and are exposed to a mixture of fuel and oxidant. The working …
in a common gas chamber and are exposed to a mixture of fuel and oxidant. The working …
Citrate–nitrate auto-combustion synthesis of perovskite-type nanopowders: A systematic approach
Citrate–nitrate auto-combustion synthesis is used to prepare an iron, a cobalt and a cerium-
perovskite. The influence of different synthesis conditions on the combustion process, phase …
perovskite. The influence of different synthesis conditions on the combustion process, phase …
High-performance composite cathodes with tailored mixed conductivity for intermediate temperature solid oxide fuel cells using proton conducting electrolytes
A new composite cathode material made of La0. 6Sr0. 4Co0. 2Fe0. 8O3− δ (LSCF), a mixed
oxygen-ion/electron conductor, and BaZr0. 5Pr0. 3Y0. 2O3− δ (BZPY30), a mixed …
oxygen-ion/electron conductor, and BaZr0. 5Pr0. 3Y0. 2O3− δ (BZPY30), a mixed …
Comprehensive review of current developments in IT-SOFCs
D Marinha, L Dessemond… - Current Inorganic …, 2013 - ingentaconnect.com
Solid oxide fuel cell (SOFC) systems provide an alternative electricity production source,
with potentially zero carbon emissions. In order to decrease the chemical and mechanical …
with potentially zero carbon emissions. In order to decrease the chemical and mechanical …
Composite cathodes for proton conducting electrolytes
Different composite materials made of mixed protonic/electronic conductors, SrCe0. 9Yb0.
1O3–δ (10YbSC) or BaCe0. 9Yb0. 1O3–δ (10YbBC), and a mixed oxygen‐ion/electronic …
1O3–δ (10YbSC) or BaCe0. 9Yb0. 1O3–δ (10YbBC), and a mixed oxygen‐ion/electronic …
Rational design of lower‐temperature solid oxide fuel cell cathodes via nanotailoring of co‐assembled composite structures
KT Lee, AA Lidie, HS Yoon… - Angewandte Chemie …, 2014 - Wiley Online Library
A novel in situ co‐assembled nanocomposite LSM‐Bi1. 6Er0. 4O3 (ESB)(icn‐LSMESB) was
obtained by conjugated wet‐chemical synthesis. It showed an enhancement of the cathode …
obtained by conjugated wet‐chemical synthesis. It showed an enhancement of the cathode …
Functionally graded bismuth oxide/zirconia bilayer electrolytes for high-performance intermediate-temperature solid oxide fuel cells (IT-SOFCs)
A functionally graded Bi1. 6Er0. 4O3 (ESB)/Y0. 16Zr0. 84O1. 92 (YSZ) bilayer electrolyte is
successfully developed via a cost-effective screen printing process using nanoscale ESB …
successfully developed via a cost-effective screen printing process using nanoscale ESB …
High performance nanostructured IT-SOFC cathodes prepared by novel chemical method
The electrochemical performance of La0. 4Sr0. 6Co0. 8Fe0. 2O3− δ (LSCF) cathodes with
different nano/microstructures is compared using the area specific resistance (ASR) …
different nano/microstructures is compared using the area specific resistance (ASR) …
Role of nanostructures on SOFC performance at reduced temperatures
Solid-oxide fuel cells (SOFCs) are an energy conversion technology with unique potential to
have the highest energy conversion efficiency with the least environmental impact, as well …
have the highest energy conversion efficiency with the least environmental impact, as well …