Aimi

Marco Aimi, Niskayuna, NY US

Patent application number	Description	Published
20110163397	Composition and Manufacturing Method - A device includes a substrate (	07-07-2011

Patent application number	Description	Published
20110308924	MEMS Switching Array Having a Substrate Arranged to Conduct Switching Current - A micro-electromechanical systems (MEMS) switch or array is provided. A first substrate (e.g., carrier substrate) includes an electrically conductive substrate region. An electrical isolation layer may be disposed over a first surface of the carrier substrate. Movable actuators may be provided. At least one substrate contact is electrically coupled to at least one of the plurality of movable actuators so that a flow of electrical current is established during an electrically-closed condition of the MEMS switch array. A cover substrate may also be provided and includes an electrically conductive substrate region. The electrically conductive region of the carrier substrate is electrically coupled to the electrically conductive region of the cover substrate to define an electrically conductive path for the flow of electrical current during the electrically-closed condition of the switching array.	12-22-2011

Patent application number	Description	Published
20100125254	Monocyclic high aspect ratio titanium inductively coupled plasma deep etching processes and products so produced - Monocyclic chlorine based inductively coupled plasma deep etching processes for the rapid micromachining of titanium substrates and titanium devices so produced are disclosed. The method parameters are adjustable to simultaneously vary etch rate, mask selectivity, and surface roughness and can be applied to titanium substrates having a wide variety of thicknesses to produce high aspect ratio features, smooth sidewalls, and smooth surfaces. The titanium microdevices so produced exhibit beneficially high fracture toughness, biocompatibility and are robust and able to withstand harsh environments making them useful in a wide variety of applications including microelectronics, micromechanical devices, MEMS, and biological devices that may be used in vivo.	05-20-2010