New devices having horizontally-disposed nanofabric articles and methods
of making same are described. A discrete electro-mechanical device
includes a structure having an electrically-conductive trace. A defined
patch of nanotube fabric is disposed in spaced relation to the trace; and
the defined patch of nanotube fabric is electromechanically deflectable
between a first and second state. In the first state, the nanotube
article is in spaced relation relative to the trace, and in the second
state the nanotube article is in contact with the trace. A low resistance
signal path is in electrical communication with the defined patch of
nanofabric. Under certain embodiments, the structure includes a defined
gap into which the electrically conductive trace is disposed. The defined
gap has a defined width, and the defined patch of nanotube fabric spans
the gap and has a longitudinal extent that is slightly longer than the
defined width of the gap. Under certain embodiments, a clamp is disposed
at each of two ends of the nanotube fabric segment and disposed over at
least a portion of the nanotube fabric segment substantially at the edges
defining the gap. Under certain embodiments, the clamp is made of
electrically-conductive material. Under certain embodiments, the contact
between the nanotube patch and the trace is a non-volatile state. Under
certain embodiments, the contact between the nanotube patch and the trace
is a volatile state. Under certain embodiments, the at least one
electrically conductive trace has an interface material to alter the
attractive force between the nanotube fabric segment and the electrically
conductive trace.