Recent advances in vanadium pentoxide (V 2 O 5) towards related applications in chromogenics and beyond: fundamentals, progress, and perspectives
Smart multifunctional V2O5 is an appealing oxide for energy-saving and energy-storage
applications. This review article comprehensively analyzes its most recent advances and …
applications. This review article comprehensively analyzes its most recent advances and …
Recent progress and challenges in the optimization of electrode materials for rechargeable magnesium batteries
Rechargeable magnesium batteries (RMBs) have been regarded as one of the promising
electrochemical energy storage systems to complement Li‐ion batteries owing to the low …
electrochemical energy storage systems to complement Li‐ion batteries owing to the low …
[HTML][HTML] Reversible Mg-ion insertion in a metastable one-dimensional polymorph of V2O5
The Li-ion paradigm of battery technology is constrained by the monovalency of the Li ion. A
straightforward solution is to transition to multivalent-ion chemistries, where Mg 2+ is the …
straightforward solution is to transition to multivalent-ion chemistries, where Mg 2+ is the …
Traversing energy landscapes away from equilibrium: strategies for accessing and utilizing metastable phase space
The known crystal structures of solids often correspond to the most thermodynamically
stable arrangement of atoms. Yet, oftentimes there exist a richly diverse set of alternative …
stable arrangement of atoms. Yet, oftentimes there exist a richly diverse set of alternative …
Defining Diffusion Pathways in Intercalation Cathode Materials: Some Lessons from V2O5 on Directing Cation Traffic
The invention of rechargeable batteries has dramatically changed our landscapes and lives,
underpinning the explosive worldwide growth of consumer electronics, ushering in an …
underpinning the explosive worldwide growth of consumer electronics, ushering in an …
Designing catalysts for water splitting based on electronic structure considerations
The disproportionation of H 2 O into solar fuels H 2 and O 2, or water splitting, is a promising
strategy for clean energy harvesting and storage but requires the concerted action of …
strategy for clean energy harvesting and storage but requires the concerted action of …
Topochemically De-Intercalated Phases of V2O5 as Cathode Materials for Multivalent Intercalation Batteries: A First-Principles Evaluation
The scarce inventory of compounds that allow for diffusion of multivalent cations at
reasonable rates poses a major impediment to the development of multivalent intercalation …
reasonable rates poses a major impediment to the development of multivalent intercalation …
Hole extraction by design in photocatalytic architectures interfacing CdSe quantum dots with topochemically stabilized tin vanadium oxide
Tackling the complex challenge of harvesting solar energy to generate energy-dense fuels
such as hydrogen requires the design of photocatalytic nanoarchitectures interfacing …
such as hydrogen requires the design of photocatalytic nanoarchitectures interfacing …
Cation reordering instead of phase transitions: Origins and implications of contrasting lithiation mechanisms in 1D ζ- and 2D α-V2O5
Substantial improvements in cycle life, rate performance, accessible voltage, and reversible
capacity are required to realize the promise of Li-ion batteries in full measure. Here, we have …
capacity are required to realize the promise of Li-ion batteries in full measure. Here, we have …
Unraveling the Role of Hydrogen Insertion in Enhancing the Electrochemical Performance of the V2O5 Cathode for Mg-Ion Batteries: A First-Principles Study
Vanadium pentoxide, V2O5, is a promising candidate for Mg-ion batteries owing to its high
theoretical capacity. But sluggish electron–ion conductivity and capacity fading limit its …
theoretical capacity. But sluggish electron–ion conductivity and capacity fading limit its …