Graphene has stimulated great enthusiasm in a variety of fields, while its chemically inert surface still remains challenging for functionalization towards various applications. Herein, we report an approach to fabricate non-covalently functionalized graphene by employing pi-pi stacking interactions, which has potentialities for enhanced ammonia detection. 5,5 '-Di(4-biphenylyl)-2,2 '-bithiophene (BP2T) molecules are used in our work for the non-covalent functionalization through strong pi-pi interactions of aromatic structures with graphene, and systematic investigations by employing various spectroscopic and microscopic characterization methods confirm the successful non-covalent attachment of the BP2T on the top of graphene. From our gas...
The sensitivity of quasi-free standing epitaxial graphene for NH3 detection is strongly enhanced by ...
Hybridizing graphene and molecules possess a high potential for developing materials for new applica...
Graphene and other 2d materials have shown great promise for their ability to sense chemicals. This ...
Graphene has stimulated great enthusiasm in a variety of fields, while its chemically inert surface ...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
International audienceFunctionalized graphene offers great potential in the field of rapid detection...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
Graphene, an atomic-thin carbon sheet with carbon atoms tightly packed honeycomb-like lattice, has a...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
Graphene (G) is a two-dimensional material with exceptional sensing properties. In general, graphene...
Graphene has been widely explored as an ideal platform for gas sensing owing to exceptional properti...
The outstanding versatility of graphene for surface functionalization has been exploited by its deco...
The sensitivity of quasi-free standing epitaxial graphene for NH3 detection is strongly enhanced by ...
Advanced sensing techniques require graphene with high quality and well-controlled surface chemistry...
The sensitivity of quasi-free standing epitaxial graphene for NH3 detection is strongly enhanced by ...
Hybridizing graphene and molecules possess a high potential for developing materials for new applica...
Graphene and other 2d materials have shown great promise for their ability to sense chemicals. This ...
Graphene has stimulated great enthusiasm in a variety of fields, while its chemically inert surface ...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
International audienceFunctionalized graphene offers great potential in the field of rapid detection...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
Graphene, an atomic-thin carbon sheet with carbon atoms tightly packed honeycomb-like lattice, has a...
Functionalized graphene offers great potential in the field of rapid detection of gases at room temp...
Graphene (G) is a two-dimensional material with exceptional sensing properties. In general, graphene...
Graphene has been widely explored as an ideal platform for gas sensing owing to exceptional properti...
The outstanding versatility of graphene for surface functionalization has been exploited by its deco...
The sensitivity of quasi-free standing epitaxial graphene for NH3 detection is strongly enhanced by ...
Advanced sensing techniques require graphene with high quality and well-controlled surface chemistry...
The sensitivity of quasi-free standing epitaxial graphene for NH3 detection is strongly enhanced by ...
Hybridizing graphene and molecules possess a high potential for developing materials for new applica...
Graphene and other 2d materials have shown great promise for their ability to sense chemicals. This ...