Recent advances and challenges in divalent and multivalent metal electrodes for metal–air batteries
Metal–air batteries (MABs), which possess exceptionally high energy density and exhibit
other ideal features such as low cost, environmental benignity and safety, are regarded as …
other ideal features such as low cost, environmental benignity and safety, are regarded as …
A Comprehensive Review on the Development of Solid‐State Metal–Air Batteries Operated on Oxide‐Ion Chemistry
The recently developed solid oxide metal–air redox battery (SOMARB) operating on oxide‐
ion chemistry represents an emerging and promising energy storage technology, which is …
ion chemistry represents an emerging and promising energy storage technology, which is …
The role of pre-lithiation in activated carbon/Li4Ti5O12 asymmetric capacitors
Pre-lithiation is a method that has been demonstrated to avoid the sudden cell voltage
drop/rise during the charge/discharge in Li 4 Ti 5 O 12 (LTO) anode and to compensate the …
drop/rise during the charge/discharge in Li 4 Ti 5 O 12 (LTO) anode and to compensate the …
MOF-derived iron as an active energy storage material for intermediate-temperature solid oxide iron–air redox batteries
We here demonstrate that the iron derived from an iron-based metal–organic framework
(MOF), with exposed high-density Fe-atom planes, exhibits improved reduction activity …
(MOF), with exposed high-density Fe-atom planes, exhibits improved reduction activity …
An Intermediate-Temperature Solid Oxide Iron–Air Redox Battery Operated on O2–-Chemistry and Loaded with Pd-Catalyzed Iron-Based Energy Storage Material
The solid oxide iron–air redox battery (SOIARB) operated on high-temperature O2–-
chemistry is an emerging all-solid-state battery suitable for large-scale energy storage with …
chemistry is an emerging all-solid-state battery suitable for large-scale energy storage with …
Understanding the catalysis of noble metals in reduction of iron oxide by hydrogen: insights from DFT calculations
Fe/FeOx redox couples have been widely used as an oxygen carrier for redox devices such
as chemical looping reactors and solid oxide iron–air batteries (SOIABs) because of their …
as chemical looping reactors and solid oxide iron–air batteries (SOIABs) because of their …
Harnessing solid-state technology for next-generation iron–air batteries
B Sun, H Wang, C Peng - Sustainable Energy & Fuels, 2024 - pubs.rsc.org
Iron–air batteries are increasingly recognized as a significant technological advancement for
renewable energy due to their substantial potential for large-scale energy storage. This …
renewable energy due to their substantial potential for large-scale energy storage. This …
Proton-mediated energy storage in intermediate-temperature solid-oxide metal–air batteries
Proton-containing ceramics have been investigated for the first time as the supporting phase
for the energy storage medium in intermediate-temperature (IT) solid-oxide metal–air redox …
for the energy storage medium in intermediate-temperature (IT) solid-oxide metal–air redox …
All-Solid-State Iron-Air Batteries: A Promising High-Temperature Battery Technology for Large-Scale Energy Storage
H Wang, B Sun, C Peng - Journal of The Electrochemical Society, 2024 - iopscience.iop.org
All-solid-state iron-air batteries (ASSIABs) offer a promising high-temperature battery
technology for sustainable large-scale energy storage. However, current ASSIAB …
technology for sustainable large-scale energy storage. However, current ASSIAB …
A new defect chemistry model for Nb-doped SrCoO2. 5+ δ: The role of oxygen interstitials and delocalized-to-localized electron holes
A new defect chemistry model featuring oxygen interstitials (OI") and delocalized-to-
localized d-electron holes (Co Co·) as point defects is demonstrated under a perfect …
localized d-electron holes (Co Co·) as point defects is demonstrated under a perfect …