Interlayer engineering of preintercalated layered oxides as cathode for emerging multivalent metal-ion batteries: zinc and beyond
Typical layered structures with large capacity have attracted much interest in lithium ion
batteries and emerging post-lithium ion batteries. However, these typical layered oxides …
batteries and emerging post-lithium ion batteries. However, these typical layered oxides …
Progress towards chemical gas sensors: Nanowires and 2D semiconductors
V Galstyan, A Moumen, GWC Kumarage… - Sensors and Actuators B …, 2022 - Elsevier
There is a great interest in portable gas sensing technologies to provide real-time monitoring
of indoor and outdoor air quality as well as the human health diagnostics. One-dimensional …
of indoor and outdoor air quality as well as the human health diagnostics. One-dimensional …
ECRAM materials, devices, circuits and architectures: A perspective
Non‐von‐Neumann computing using neuromorphic systems based on two‐terminal
resistive nonvolatile memory elements has emerged as a promising approach, but its full …
resistive nonvolatile memory elements has emerged as a promising approach, but its full …
The renaissance of proton batteries
Proton, as a charge carrier, is most attractive due to its size and the associated advantages.
Recently, reversible proton insertion in electrodes has emerged in electrochemical energy …
Recently, reversible proton insertion in electrodes has emerged in electrochemical energy …
Proton batteries shape the next energy storage
C Huang, W Zhang, W Zheng - Energy Storage Materials, 2023 - Elsevier
Merited by its fast proton diffusion kinetics, proton batteries are qualified as one of the most
next-generation energy storage devices. The recent emergence and explosive development …
next-generation energy storage devices. The recent emergence and explosive development …
Anhydrous Fast Proton Transport Boosted by the Hydrogen Bond Network in a Dense Oxide‐Ion Array of α‐MoO3
Developing high‐power battery chemistry is an urgent task to buffer fluctuating renewable
energies and achieve a sustainable and flexible power supply. Owing to the small size of the …
energies and achieve a sustainable and flexible power supply. Owing to the small size of the …
Insights on the proton insertion mechanism in the electrode of hexagonal tungsten oxide hydrate
This study reveals the transport behavior of lattice water during proton (de) insertion in the
structure of the hexagonal WO3· 0.6 H2O electrode. By monitoring the mass evolution of this …
structure of the hexagonal WO3· 0.6 H2O electrode. By monitoring the mass evolution of this …
Electrochemical proton storage: from fundamental understanding to materials to devices
T Xu, D Wang, Z Li, Z Chen, J Zhang, T Hu, X Zhang… - Nano-Micro Letters, 2022 - Springer
Simultaneously improving the energy density and power density of electrochemical energy
storage systems is the ultimate goal of electrochemical energy storage technology. An …
storage systems is the ultimate goal of electrochemical energy storage technology. An …
A Novel Layered WO3 Derived from An Ion Etching Engineering for Ultrafast Proton Storage in Frozen Electrolyte
D Wang, T Xu, M Zhang, Z Ren… - Advanced Functional …, 2023 - Wiley Online Library
Aqueous proton batteries/pseudocapacitors are promising candidates for next‐generation
electrochemical energy storage. However, their development is impeded by the lack of …
electrochemical energy storage. However, their development is impeded by the lack of …
Confined interlayer water promotes structural stability for high-rate electrochemical proton intercalation in tungsten oxide hydrates
There is widespread interest in determining the structural features of redox-active
electrochemical energy storage materials that enable simultaneous high power and high …
electrochemical energy storage materials that enable simultaneous high power and high …