Abstract: Nanomechanical, nanoelectromechanical, and other molecular-scale pump assembly are described. In certain embodiments, the pump assembly includes a cavity. The cavity includes a plurality of nanofilaments, a surface proximate at least one of the nanofilaments, a fluid flow path, and an opening. Molecules of a fluid that flows from the opening through the cavity along the fluid flow path collide with the surface or one or more of the nanofilaments such that the molecules are accelerated along the fluid flow path. A molecular-scale pump assembly includes a plate defining a plurality of openings, and a plurality of cantilevered molecular-scale beams positioned over each opening. In certain embodiment, molecules of a fluid are accelerated through the opening by asymmetric oscillation.

Abstract: A nanoelectromechanical tunneling current switch includes a cantilevered nanofilament including a secured end and an unsecured end and a conductor with a surface substantially perpendicular to a longitudinal axis of the nanofilament when the nanofilament is undeflected. The nanofilament is positioned with respect to the conductor to define a gap between the unsecured end of the nanofilament and the surface of the conductor substantially perpendicular to the longitudinal axis of the nanofilament. The nanofilament and the conductor are electrically connected by a circuit, and a tunneling current is configured to flow from the nanofilament to the surface of the conductor substantially perpendicular to the longitudinal axis of the nanofilament. In other embodiments of the nanoelectromechanical tunneling current switch, an electrically conductive membrane can be utilized in place of, or in addition to, the cantilevered nanofilament.

Abstract: The present invention relates to pump systems and engine systems having graphene drums. In embodiments of the invention, the graphene drum can be utilized in the main chambers and/or valves of the pumps and engines.

Abstract: The present invention relates to thin membranes (such as graphene windows) and methods of aligned transfer of such thin membranes to substrates. The present invention further relates to devices that include such thin membranes.

Abstract: A switching element having an electromechanical switch (such as an electrically conductive membrane switch, for example a graphene membrane switch) is disclosed herein. Such a switching element can be made and used in a switching power converter to reduce power loss and to maximize efficiency of the switching power converter.

Abstract: Methods for making composite membranes (graphene/graphene oxide platelet composite membranes) and methods of aligned transfer of such composite membranes to substrates are shown. Compositions and devices that include such composite membranes are further shown.