An effective approach to fabricate graphene-based conductive films is explored on the basis of the pressure-assisted reduction technique.close10
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Transparent, conductive, and mechanically flexible graphene films are seen as an alternative to indi...
Chemically reduced graphene oxide (rGO) is widely studied as a transparent electrode, as it can be c...
The ability to scale up the production of chemically modified forms of graphene has led to intense i...
The ability to scale up the production of chemically modified forms of graphene has led to intense i...
Lightweight, flexible graphite foils that are chemically inert, high-temperature resistant, and high...
A novel, green, and highly efficient strategy for room-temperature reduction of solid-state graphene...
Lightweight, flexible graphite foils that are chemically inert, high-temperature resistant, and high...
Re-establishment of electrical conductivity in graphene oxide (GO), the insulating form of graphene,...
Graphene is a desirable material for next generation technology. However, producing high yields of s...
Graphene is a desirable material for next generation technology. However, producing high yields of s...
Re-establishment of electrical conductivity in graphene oxide (GO), the insulating form of graphene,...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-0...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Transparent, conductive, and mechanically flexible graphene films are seen as an alternative to indi...
Chemically reduced graphene oxide (rGO) is widely studied as a transparent electrode, as it can be c...
The ability to scale up the production of chemically modified forms of graphene has led to intense i...
The ability to scale up the production of chemically modified forms of graphene has led to intense i...
Lightweight, flexible graphite foils that are chemically inert, high-temperature resistant, and high...
A novel, green, and highly efficient strategy for room-temperature reduction of solid-state graphene...
Lightweight, flexible graphite foils that are chemically inert, high-temperature resistant, and high...
Re-establishment of electrical conductivity in graphene oxide (GO), the insulating form of graphene,...
Graphene is a desirable material for next generation technology. However, producing high yields of s...
Graphene is a desirable material for next generation technology. However, producing high yields of s...
Re-establishment of electrical conductivity in graphene oxide (GO), the insulating form of graphene,...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-0...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Here we report an electrochemical method to simultaneously reduce and delaminate graphene oxide (G-O...
Transparent, conductive, and mechanically flexible graphene films are seen as an alternative to indi...
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