Add to ORKGThis chapter attempts to provide a comprehensive and critical overview of the most recent developments on the use of Layer-by-Layer (LbL) and Langmuir-Blodgett (LB) techniques for the design and construction of novel graphene-based hybrids. The structural, physicochemical, electronic, mechanical, and tribological properties of these hybrid systems are discussed, while emphasis is placed on their potential applications in various fields such as electronics, sensors, and ion batteries
International audienceThe properties of sp2 carbon allotropes can be tuned and enriched by their int...
Graphene, one atom thick allotrope of carbon, has enabled researchers to a new era of exploration du...
The construction of hybrid polymer-inorganic nanoarchitectures for electrochemical purposes based on...
With its superior electrical, optical, thermal, and mechanical properties, graphene offers a versati...
Two-dimensional (2D) graphene sheets have become a versatile platform for the fabrication of innovat...
With its superior electrical, optical, thermal, and mechanical properties, graphene offers a versati...
As an emerging concept for the development of new materials with nanoscale features, nanoarchitecton...
The ability to control properties of nanomaterials by immobilization on a substrate of interest thro...
The primary focus of this research work has been made to design, synthesis and characterize novel gr...
We developed a new approach for producing graphene-like (GL) materials through a two-steps oxidation...
Much of the research effort on graphene focuses on its use as a building block for the development o...
Low-dimensional assemblies, where order and organization follow supramolecular principles, have show...
The construction of nanostructured materials for their application in electrochemical processes, e.g...
International audienceGraphene is a 2D material combining numerous outstanding physical properties, ...
The special electronic, optical, thermal, and mechanical properties of graphene resulting from its 2...
International audienceThe properties of sp2 carbon allotropes can be tuned and enriched by their int...
Graphene, one atom thick allotrope of carbon, has enabled researchers to a new era of exploration du...
The construction of hybrid polymer-inorganic nanoarchitectures for electrochemical purposes based on...
With its superior electrical, optical, thermal, and mechanical properties, graphene offers a versati...
Two-dimensional (2D) graphene sheets have become a versatile platform for the fabrication of innovat...
With its superior electrical, optical, thermal, and mechanical properties, graphene offers a versati...
As an emerging concept for the development of new materials with nanoscale features, nanoarchitecton...
The ability to control properties of nanomaterials by immobilization on a substrate of interest thro...
The primary focus of this research work has been made to design, synthesis and characterize novel gr...
We developed a new approach for producing graphene-like (GL) materials through a two-steps oxidation...
Much of the research effort on graphene focuses on its use as a building block for the development o...
Low-dimensional assemblies, where order and organization follow supramolecular principles, have show...
The construction of nanostructured materials for their application in electrochemical processes, e.g...
International audienceGraphene is a 2D material combining numerous outstanding physical properties, ...
The special electronic, optical, thermal, and mechanical properties of graphene resulting from its 2...
International audienceThe properties of sp2 carbon allotropes can be tuned and enriched by their int...
Graphene, one atom thick allotrope of carbon, has enabled researchers to a new era of exploration du...
The construction of hybrid polymer-inorganic nanoarchitectures for electrochemical purposes based on...