Add to ORKGHydrogen evolution reaction (HER) by electrochemical water splitting using new promising non-precious metal catalysts shows great potential for clean energy technology. The design and fabrication of a high-performance electrode material based on cobalt disulfide/reduced graphene oxide (CoS2/RGO) nanocomposites is reported by a one-step hydrothermal method. Benefiting from its structural advantages, namely, large amount of exposed surface, fast charge transfer, and synergistic effect between CoS2 and RGO, the as-prepared nanocomposites are exploited as a catalyst for the HER. The results indicate that CoS2/RGO-5 % exhibits the best performance of hydrogen evolution and the smallest overpotential of 159 mV to achieve a 15 mA cm−2 current dens...
Available online 29 May 2017A new composite material consisting of 0D MoS2 nanodots and 3D MoS2 nano...
Hydrogen evolution reaction through electrolysis holds great potential as a clean, renewable, and su...
It is extremely meaningful to develop cheap, highly efficient, and stable bifunctional electrocataly...
Flexible three-dimensional (3D) nanoarchitectures have received tremendous interest recently because...
Cost-effective materials for electrocatalytic water splitting are key to renewable energy research. ...
Water electrolysis is an advanced and sustainable energy conversion technology used to generate H-2....
It is extremely meaningful to develop cheap, highly efficient, and stable bifunctional electrocataly...
Composite materials: Tungsten disulfide and WS2/reduced graphene oxide (WS2/rGO) nanosheets were fab...
Solar-driven water splitting to produce hydrogen and oxygen is widely considered as a sustainable ap...
Solar-driven water splitting to produce hydrogen and oxygen is widely considered as a sustainable ap...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Porous graphene (P-rGO) was synthesized from graphene oxide (GO) via a one-pot calcination method wi...
We synthesized single-phase CoS2 on a large scale by adding graphene oxide of sufficient quantity vi...
Available online 2 March 2018Porous graphene (P-rGO) was synthesized from graphene oxide (GO) via a ...
© 2017 Elsevier Ltd A new composite material consisting of 0D MoS 2 nanodots and 3D MoS 2 nano-flo...
Available online 29 May 2017A new composite material consisting of 0D MoS2 nanodots and 3D MoS2 nano...
Hydrogen evolution reaction through electrolysis holds great potential as a clean, renewable, and su...
It is extremely meaningful to develop cheap, highly efficient, and stable bifunctional electrocataly...
Flexible three-dimensional (3D) nanoarchitectures have received tremendous interest recently because...
Cost-effective materials for electrocatalytic water splitting are key to renewable energy research. ...
Water electrolysis is an advanced and sustainable energy conversion technology used to generate H-2....
It is extremely meaningful to develop cheap, highly efficient, and stable bifunctional electrocataly...
Composite materials: Tungsten disulfide and WS2/reduced graphene oxide (WS2/rGO) nanosheets were fab...
Solar-driven water splitting to produce hydrogen and oxygen is widely considered as a sustainable ap...
Solar-driven water splitting to produce hydrogen and oxygen is widely considered as a sustainable ap...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Porous graphene (P-rGO) was synthesized from graphene oxide (GO) via a one-pot calcination method wi...
We synthesized single-phase CoS2 on a large scale by adding graphene oxide of sufficient quantity vi...
Available online 2 March 2018Porous graphene (P-rGO) was synthesized from graphene oxide (GO) via a ...
© 2017 Elsevier Ltd A new composite material consisting of 0D MoS 2 nanodots and 3D MoS 2 nano-flo...
Available online 29 May 2017A new composite material consisting of 0D MoS2 nanodots and 3D MoS2 nano...
Hydrogen evolution reaction through electrolysis holds great potential as a clean, renewable, and su...
It is extremely meaningful to develop cheap, highly efficient, and stable bifunctional electrocataly...