Add to ORKGIn this work, a freestanding NiS2/FeS holey film (HF) is prepared after electrochemical anodic and chemical vapor deposition treatments. With the combination of good electrical conductivity and holey structure, the NiS2/FeS HF presents superior electrochemical performance, due to the following reasons: (i) Porous structure of HF provides a large surface area and more active sites/channels/pathways to enhance the ion/mass diffusion. Moreover, the porous structure can reduce the damage from the volumetric expansion. (ii) The as-prepared electrode combines the current collector (residual NiFe alloy) and active materials (sulfides) together, thus reducing the resistance of the electrode. Additionally, the good conductivity of HF can improve ele...
As new emerging techniques such as electric vehicles and energy storage at large scale are growing, ...
In this paper we report the characterization of a nickel-layer protected carbon-coated sulfur as pos...
As one of the promising cathode materials, NiS2 delivers an ultrahigh theoretical capacity of 870 mA...
The NiS2 nanosheet array on Ni foil (NiS2/NF) was prepared using an in situ growth strategy and sulf...
In this work, a combination of bottom-up electrochemical deposition and top-down electrochemical etc...
In this work, a combination of bottom-up electrochemical deposition and top-down electrochemical etc...
The effects of current collectors on the electrochemical performance of FeS2 electrode have been inv...
In this work, a freestanding NiFe oxyfluoride (NiFeOF) holey film is prepared by electrochemical dep...
In this paper we report the characterization of a nickel-layer protected carbon-coated sulfur as pos...
In this work we propose a new approach to make the sulfur electrode a valid candidate cathode for hi...
The main obstacles that hinder the development of efficient lithium sulfur (Li-S) battery are the po...
In this Letter, we report the preparation of sulfur nanodots (2 nm average) electrodeposited on flex...
Due to the overwhelming superiorities in energy density and material cost, lithium-sulfur (Li-S) bat...
International audienceAll-solid-state thin film batteries based on sputtered pyrite electrodes, a li...
A stable lithium metal anode was fabricated using a functional lithiophilic thin film polymer. The f...
As new emerging techniques such as electric vehicles and energy storage at large scale are growing, ...
In this paper we report the characterization of a nickel-layer protected carbon-coated sulfur as pos...
As one of the promising cathode materials, NiS2 delivers an ultrahigh theoretical capacity of 870 mA...
The NiS2 nanosheet array on Ni foil (NiS2/NF) was prepared using an in situ growth strategy and sulf...
In this work, a combination of bottom-up electrochemical deposition and top-down electrochemical etc...
In this work, a combination of bottom-up electrochemical deposition and top-down electrochemical etc...
The effects of current collectors on the electrochemical performance of FeS2 electrode have been inv...
In this work, a freestanding NiFe oxyfluoride (NiFeOF) holey film is prepared by electrochemical dep...
In this paper we report the characterization of a nickel-layer protected carbon-coated sulfur as pos...
In this work we propose a new approach to make the sulfur electrode a valid candidate cathode for hi...
The main obstacles that hinder the development of efficient lithium sulfur (Li-S) battery are the po...
In this Letter, we report the preparation of sulfur nanodots (2 nm average) electrodeposited on flex...
Due to the overwhelming superiorities in energy density and material cost, lithium-sulfur (Li-S) bat...
International audienceAll-solid-state thin film batteries based on sputtered pyrite electrodes, a li...
A stable lithium metal anode was fabricated using a functional lithiophilic thin film polymer. The f...
As new emerging techniques such as electric vehicles and energy storage at large scale are growing, ...
In this paper we report the characterization of a nickel-layer protected carbon-coated sulfur as pos...
As one of the promising cathode materials, NiS2 delivers an ultrahigh theoretical capacity of 870 mA...