Add to ORKGWe report a binder-free three-dimensional (3D) macro-mesoporous electrode architecture via self-assembly of 3 nm NiO nanodots on macroporous nickel foam for high performance supercapacitor-like lithium battery. This electrode architecture provides a hierarchically 3D macro-mesoporous electrolyte-filled network that simultaneously enables rapid ion transfer and ultra-short solid-phase ion diffusion. Benefitting from the structural superiority owing to the interconnected porous hierarchy, the electrode exhibits supercapacitor-like high rate capabilities with high lithium battery capacities during the discharge-charge process: a very high capacity of 518 mA h g−1 at an ultrahigh current density of 50 A g−1. It exceeds at least ~10 times than t...
The synthesis of nanoporous graphene by a convenient carbon nanofiber assisted self-assembly approac...
Enhancing ion and electron transport kinetics together with improving cycle life are important issue...
Despite the enormous potential of additive manufacturing in fabricating three-dimensional battery el...
We report a binder-free three-dimensional (3D) macro-mesoporous electrode architecture via self-asse...
A new type of hierarchical macro/mesoporous NiO is prepared from a simple thermolysis of nickel dime...
The formation and growth of lithium dendrites have dramatically limited the application of lithium m...
In this work, we have synthesized highly ordered mesoporous NiO materials by a nanocasting method us...
New materials are critically needed for advanced energy storage devices due to the limited performan...
A three-dimensional porous architecture makes an attractive electrode structure, as it has an intrin...
The two-dimensional (2D) nanostructures of NiO obtained after calcination at 450 °C of β-Ni(OH)<sub...
A Fe2O3@NiO core/shell nanorod array on carbon cloth was prepared with the aid of hydrothermal synth...
A unique ultrathin porous NiO nanosheets/graphene hierarchical structure is successfully fabricated ...
The reduction in size and the improvement in the capability of microsystems are presently limited by...
Ternary metal oxides have been receiving wide attention in electrochemical energy storage due to the...
An emerging paradigm in engineering design is the development of materials by constructing hierarchi...
The synthesis of nanoporous graphene by a convenient carbon nanofiber assisted self-assembly approac...
Enhancing ion and electron transport kinetics together with improving cycle life are important issue...
Despite the enormous potential of additive manufacturing in fabricating three-dimensional battery el...
We report a binder-free three-dimensional (3D) macro-mesoporous electrode architecture via self-asse...
A new type of hierarchical macro/mesoporous NiO is prepared from a simple thermolysis of nickel dime...
The formation and growth of lithium dendrites have dramatically limited the application of lithium m...
In this work, we have synthesized highly ordered mesoporous NiO materials by a nanocasting method us...
New materials are critically needed for advanced energy storage devices due to the limited performan...
A three-dimensional porous architecture makes an attractive electrode structure, as it has an intrin...
The two-dimensional (2D) nanostructures of NiO obtained after calcination at 450 °C of β-Ni(OH)<sub...
A Fe2O3@NiO core/shell nanorod array on carbon cloth was prepared with the aid of hydrothermal synth...
A unique ultrathin porous NiO nanosheets/graphene hierarchical structure is successfully fabricated ...
The reduction in size and the improvement in the capability of microsystems are presently limited by...
Ternary metal oxides have been receiving wide attention in electrochemical energy storage due to the...
An emerging paradigm in engineering design is the development of materials by constructing hierarchi...
The synthesis of nanoporous graphene by a convenient carbon nanofiber assisted self-assembly approac...
Enhancing ion and electron transport kinetics together with improving cycle life are important issue...
Despite the enormous potential of additive manufacturing in fabricating three-dimensional battery el...