Add to ORKGGraphene is a carbon based material that has only one atomic layer. It has exceptional electronic and mechanical properties which makes itself an ideal system to study nanoelectromechanical behaviors. In this work I present the fabrication and electromechanical properties of single layer graphene resonator in nanoribbon geometry
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...
Graphene is an exciting new atomically-thin two dimensional system with applications ranging from ne...
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...
Nanoelectromechanical systems were fabricated from single- and multilayer graphene sheets by mechani...
Made of only one sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. ...
Made of only on sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. S...
Made of only on sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. S...
Graphene, a carbon-based two-dimensional material, has remarkable electrical and mechanical properti...
Graphene, a carbon-based two-dimensional material, has remarkable electrical and mechanical properti...
Graphene is an exciting new atomically-thin two dimensional system with ap-plications ranging from n...
This thesis describes studies of a two-dimensional (2D), hexagonal arrangement of carbon atoms, grap...
Due to the limitation of graphene processing technology, the prepared graphene inevitably contains v...
The enormous stiffness and low density of graphene make it an ideal material for nanoelectromechanic...
International audienceGraphene nanoribbons are fundamental components to the development of graphene...
This thesis concerns describing the mechanical properties of the two dimensional material graphene b...
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...
Graphene is an exciting new atomically-thin two dimensional system with applications ranging from ne...
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...
Nanoelectromechanical systems were fabricated from single- and multilayer graphene sheets by mechani...
Made of only one sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. ...
Made of only on sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. S...
Made of only on sheet of carbon atoms, graphene is the thinnest yet strongest material ever exist. S...
Graphene, a carbon-based two-dimensional material, has remarkable electrical and mechanical properti...
Graphene, a carbon-based two-dimensional material, has remarkable electrical and mechanical properti...
Graphene is an exciting new atomically-thin two dimensional system with ap-plications ranging from n...
This thesis describes studies of a two-dimensional (2D), hexagonal arrangement of carbon atoms, grap...
Due to the limitation of graphene processing technology, the prepared graphene inevitably contains v...
The enormous stiffness and low density of graphene make it an ideal material for nanoelectromechanic...
International audienceGraphene nanoribbons are fundamental components to the development of graphene...
This thesis concerns describing the mechanical properties of the two dimensional material graphene b...
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...
Graphene is an exciting new atomically-thin two dimensional system with applications ranging from ne...
Carbon based nanoelectromechanical oscillators outperform their predecessors in many ways. In partic...