Two‐dimensional metal oxide nanomaterials for next‐generation rechargeable batteries
The exponential increase in research focused on two‐dimensional (2D) metal oxides has
offered an unprecedented opportunity for their use in energy conversion and storage …
offered an unprecedented opportunity for their use in energy conversion and storage …
Non-van der Waals quasi-2D materials; recent advances in synthesis, emergent properties and applications
The discovery of novel materials that are stable at ambient conditions with emergent
functionalities is a pressing need of the 21st century to keep the pace of social and …
functionalities is a pressing need of the 21st century to keep the pace of social and …
Expanded hydrated vanadate for high-performance aqueous zinc-ion batteries
Hydrated vanadates are promising layered cathodes for aqueous zinc-ion batteries owing to
their specific capacity as high as 400 mA hg− 1; however, the structural instability causes …
their specific capacity as high as 400 mA hg− 1; however, the structural instability causes …
Constructing 3D hierarchical CNTs/VO2 composite microspheres with superior electromagnetic absorption performance
F Mao, X Fan, L Long, Y Li, H Chen, W Zhou - Ceramics International, 2023 - Elsevier
To achieve efficient electromagnetic wave absorption (EWA) performance with requirements
of low density and thin thickness, three-dimensional (3D) hierarchical CNTs/VO 2 composite …
of low density and thin thickness, three-dimensional (3D) hierarchical CNTs/VO 2 composite …
General Carbon Modification Avenue to Construct Highly Stable V2O5 Electrodes for Aqueous Zinc-Ion Batteries
Y Liu, Y Liu, X Wu, YR Cho - ACS Sustainable Chemistry & …, 2023 - ACS Publications
Aqueous zinc-ion batteries possess enormous application prospects in energy storage
devices due to their abundant zinc resources and intrinsic safety characteristics. However …
devices due to their abundant zinc resources and intrinsic safety characteristics. However …
Strong Oxide‐Support Interaction over IrO2/V2O5 for Efficient pH‐Universal Water Splitting
X Zheng, M Qin, S Ma, Y Chen, H Ning… - Advanced …, 2022 - Wiley Online Library
Constructing strong oxide‐support interaction (SOSI) is compelling for modulating the atomic
configurations and electronic structures of supported catalysts. Herein, ultrafine iridium oxide …
configurations and electronic structures of supported catalysts. Herein, ultrafine iridium oxide …
Skin‐inspired thermoreceptors‐based electronic skin for biomimicking thermal pain reflexes
Electronic systems possessing skin‐like morphology and functionalities (electronic skins [e‐
skins]) have attracted considerable attention in recent years to provide sensory or haptic …
skins]) have attracted considerable attention in recent years to provide sensory or haptic …
Oxygen vacancy associated single-electron transfer for photofixation of CO2 to long-chain chemicals
The photofixation and utilization of CO2 via single-electron mechanism is considered to be a
clean and green way to produce high-value-added commodity chemicals with long carbon …
clean and green way to produce high-value-added commodity chemicals with long carbon …
High-performance flexible quasi-solid-state zinc-ion batteries with layer-expanded vanadium oxide cathode and zinc/stainless steel mesh composite anode
Rechargeable aqueous zinc-ion batteries (ZIBs) featured with environmental friendliness,
low cost, and high safety have attracted great interest but still suffer from the lack of high …
low cost, and high safety have attracted great interest but still suffer from the lack of high …
Electric-field harmony in V2C/V2O5 heterointerfaces toward high-performance aqueous Zn-ion batteries
P Cai, K Wang, X He, Q Li, Z Zhang, M Li, H Li… - Energy Storage …, 2023 - Elsevier
The infancy-stage heterointerfaces cathode materials typically avoid strong electrostatic
interactions and low diffusion rates with divalent Zn 2+, leading to fast Zn 2+ intercalation …
interactions and low diffusion rates with divalent Zn 2+, leading to fast Zn 2+ intercalation …